TSTP Solution File: GRP111-1 by Bliksem---1.12
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- Process Solution
%------------------------------------------------------------------------------
% File : Bliksem---1.12
% Problem : GRP111-1 : TPTP v8.1.0. Bugfixed v2.7.0.
% Transfm : none
% Format : tptp:raw
% Command : bliksem %s
% Computer : n007.cluster.edu
% Model : x86_64 x86_64
% CPU : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory : 8042.1875MB
% OS : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit : 0s
% DateTime : Sat Jul 16 07:34:54 EDT 2022
% Result : Unsatisfiable 1.46s 1.82s
% Output : Refutation 1.46s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.07/0.12 % Problem : GRP111-1 : TPTP v8.1.0. Bugfixed v2.7.0.
% 0.07/0.12 % Command : bliksem %s
% 0.14/0.33 % Computer : n007.cluster.edu
% 0.14/0.33 % Model : x86_64 x86_64
% 0.14/0.33 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.14/0.33 % Memory : 8042.1875MB
% 0.14/0.33 % OS : Linux 3.10.0-693.el7.x86_64
% 0.14/0.34 % CPULimit : 300
% 0.14/0.34 % DateTime : Tue Jun 14 00:29:54 EDT 2022
% 0.14/0.34 % CPUTime :
% 1.46/1.82 *** allocated 10000 integers for termspace/termends
% 1.46/1.82 *** allocated 10000 integers for clauses
% 1.46/1.82 *** allocated 10000 integers for justifications
% 1.46/1.82 Bliksem 1.12
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 Automatic Strategy Selection
% 1.46/1.82
% 1.46/1.82 Clauses:
% 1.46/1.82 [
% 1.46/1.82 [ =( 'double_divide'( inverse( 'double_divide'( inverse( 'double_divide'(
% 1.46/1.82 X, inverse( Y ) ) ), Z ) ), 'double_divide'( X, Z ) ), Y ) ],
% 1.46/1.82 [ =( multiply( X, Y ), inverse( 'double_divide'( Y, X ) ) ) ],
% 1.46/1.82 [ ~( =( multiply( inverse( a1 ), a1 ), multiply( inverse( b1 ), b1 ) ) )
% 1.46/1.82 , ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ), ~( =(
% 1.46/1.82 multiply( multiply( a3, b3 ), c3 ), multiply( a3, multiply( b3, c3 ) ) )
% 1.46/1.82 ), ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ]
% 1.46/1.82 ] .
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 percentage equality = 1.000000, percentage horn = 1.000000
% 1.46/1.82 This is a pure equality problem
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 Options Used:
% 1.46/1.82
% 1.46/1.82 useres = 1
% 1.46/1.82 useparamod = 1
% 1.46/1.82 useeqrefl = 1
% 1.46/1.82 useeqfact = 1
% 1.46/1.82 usefactor = 1
% 1.46/1.82 usesimpsplitting = 0
% 1.46/1.82 usesimpdemod = 5
% 1.46/1.82 usesimpres = 3
% 1.46/1.82
% 1.46/1.82 resimpinuse = 1000
% 1.46/1.82 resimpclauses = 20000
% 1.46/1.82 substype = eqrewr
% 1.46/1.82 backwardsubs = 1
% 1.46/1.82 selectoldest = 5
% 1.46/1.82
% 1.46/1.82 litorderings [0] = split
% 1.46/1.82 litorderings [1] = extend the termordering, first sorting on arguments
% 1.46/1.82
% 1.46/1.82 termordering = kbo
% 1.46/1.82
% 1.46/1.82 litapriori = 0
% 1.46/1.82 termapriori = 1
% 1.46/1.82 litaposteriori = 0
% 1.46/1.82 termaposteriori = 0
% 1.46/1.82 demodaposteriori = 0
% 1.46/1.82 ordereqreflfact = 0
% 1.46/1.82
% 1.46/1.82 litselect = negord
% 1.46/1.82
% 1.46/1.82 maxweight = 15
% 1.46/1.82 maxdepth = 30000
% 1.46/1.82 maxlength = 115
% 1.46/1.82 maxnrvars = 195
% 1.46/1.82 excuselevel = 1
% 1.46/1.82 increasemaxweight = 1
% 1.46/1.82
% 1.46/1.82 maxselected = 10000000
% 1.46/1.82 maxnrclauses = 10000000
% 1.46/1.82
% 1.46/1.82 showgenerated = 0
% 1.46/1.82 showkept = 0
% 1.46/1.82 showselected = 0
% 1.46/1.82 showdeleted = 0
% 1.46/1.82 showresimp = 1
% 1.46/1.82 showstatus = 2000
% 1.46/1.82
% 1.46/1.82 prologoutput = 1
% 1.46/1.82 nrgoals = 5000000
% 1.46/1.82 totalproof = 1
% 1.46/1.82
% 1.46/1.82 Symbols occurring in the translation:
% 1.46/1.82
% 1.46/1.82 {} [0, 0] (w:1, o:2, a:1, s:1, b:0),
% 1.46/1.82 . [1, 2] (w:1, o:27, a:1, s:1, b:0),
% 1.46/1.82 ! [4, 1] (w:0, o:21, a:1, s:1, b:0),
% 1.46/1.82 = [13, 2] (w:1, o:0, a:0, s:1, b:0),
% 1.46/1.82 ==> [14, 2] (w:1, o:0, a:0, s:1, b:0),
% 1.46/1.82 inverse [41, 1] (w:1, o:26, a:1, s:1, b:0),
% 1.46/1.82 'double_divide' [42, 2] (w:1, o:52, a:1, s:1, b:0),
% 1.46/1.82 multiply [44, 2] (w:1, o:53, a:1, s:1, b:0),
% 1.46/1.82 a1 [45, 0] (w:1, o:12, a:1, s:1, b:0),
% 1.46/1.82 b1 [46, 0] (w:1, o:16, a:1, s:1, b:0),
% 1.46/1.82 b2 [47, 0] (w:1, o:17, a:1, s:1, b:0),
% 1.46/1.82 a2 [48, 0] (w:1, o:13, a:1, s:1, b:0),
% 1.46/1.82 a3 [49, 0] (w:1, o:14, a:1, s:1, b:0),
% 1.46/1.82 b3 [50, 0] (w:1, o:18, a:1, s:1, b:0),
% 1.46/1.82 c3 [51, 0] (w:1, o:20, a:1, s:1, b:0),
% 1.46/1.82 a4 [52, 0] (w:1, o:15, a:1, s:1, b:0),
% 1.46/1.82 b4 [53, 0] (w:1, o:19, a:1, s:1, b:0).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 Starting Search:
% 1.46/1.82
% 1.46/1.82 Resimplifying inuse:
% 1.46/1.82 Done
% 1.46/1.82
% 1.46/1.82 Failed to find proof!
% 1.46/1.82 maxweight = 15
% 1.46/1.82 maxnrclauses = 10000000
% 1.46/1.82 Generated: 60
% 1.46/1.82 Kept: 9
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 The strategy used was not complete!
% 1.46/1.82
% 1.46/1.82 Increased maxweight to 16
% 1.46/1.82
% 1.46/1.82 Starting Search:
% 1.46/1.82
% 1.46/1.82 Resimplifying inuse:
% 1.46/1.82 Done
% 1.46/1.82
% 1.46/1.82 Failed to find proof!
% 1.46/1.82 maxweight = 16
% 1.46/1.82 maxnrclauses = 10000000
% 1.46/1.82 Generated: 74
% 1.46/1.82 Kept: 10
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 The strategy used was not complete!
% 1.46/1.82
% 1.46/1.82 Increased maxweight to 17
% 1.46/1.82
% 1.46/1.82 Starting Search:
% 1.46/1.82
% 1.46/1.82 Resimplifying inuse:
% 1.46/1.82 Done
% 1.46/1.82
% 1.46/1.82 Failed to find proof!
% 1.46/1.82 maxweight = 17
% 1.46/1.82 maxnrclauses = 10000000
% 1.46/1.82 Generated: 150
% 1.46/1.82 Kept: 14
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 The strategy used was not complete!
% 1.46/1.82
% 1.46/1.82 Increased maxweight to 18
% 1.46/1.82
% 1.46/1.82 Starting Search:
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 Bliksems!, er is een bewijs:
% 1.46/1.82 % SZS status Unsatisfiable
% 1.46/1.82 % SZS output start Refutation
% 1.46/1.82
% 1.46/1.82 clause( 0, [ =( 'double_divide'( inverse( 'double_divide'( inverse(
% 1.46/1.82 'double_divide'( X, inverse( Y ) ) ), Z ) ), 'double_divide'( X, Z ) ), Y
% 1.46/1.82 ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 2, [ ~( =( multiply( inverse( b1 ), b1 ), multiply( inverse( a1 ),
% 1.46/1.82 a1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ),
% 1.46/1.82 ~( =( multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 ),
% 1.46/1.82 c3 ) ) ), ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 3, [ =( 'double_divide'( multiply( Z, multiply( inverse( Y ), X ) )
% 1.46/1.82 , 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 4, [ =( 'double_divide'( multiply( 'double_divide'( Z, X ),
% 1.46/1.82 multiply( inverse( T ), multiply( X, multiply( inverse( Y ), Z ) ) ) ), Y
% 1.46/1.82 ), T ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 5, [ =( multiply( 'double_divide'( Z, X ), multiply( X, multiply(
% 1.46/1.82 inverse( Y ), Z ) ) ), inverse( Y ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 6, [ =( 'double_divide'( multiply( Z, multiply( multiply( Y, X ), T
% 1.46/1.82 ) ), 'double_divide'( T, Z ) ), 'double_divide'( X, Y ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 7, [ =( multiply( 'double_divide'( multiply( inverse( Z ), X ),
% 1.46/1.82 'double_divide'( X, inverse( Y ) ) ), inverse( Z ) ), inverse( Y ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 8, [ =( 'double_divide'( inverse( Z ), 'double_divide'( multiply(
% 1.46/1.82 inverse( Z ), X ), 'double_divide'( X, inverse( Y ) ) ) ), Y ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 9, [ =( multiply( Y, multiply( 'double_divide'( Z, X ), multiply(
% 1.46/1.82 inverse( T ), multiply( X, multiply( inverse( Y ), Z ) ) ) ) ), inverse(
% 1.46/1.82 T ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 10, [ =( multiply( 'double_divide'( Z, T ), multiply( T, multiply(
% 1.46/1.82 multiply( Y, X ), Z ) ) ), multiply( Y, X ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 11, [ =( 'double_divide'( multiply( Y, X ), 'double_divide'(
% 1.46/1.82 multiply( multiply( Y, X ), Z ), 'double_divide'( Z, inverse( T ) ) ) ),
% 1.46/1.82 T ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 12, [ =( 'double_divide'( inverse( Z ), 'double_divide'( multiply(
% 1.46/1.82 inverse( Z ), T ), 'double_divide'( T, multiply( Y, X ) ) ) ),
% 1.46/1.82 'double_divide'( X, Y ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 16, [ =( multiply( T, multiply( inverse( X ), inverse( T ) ) ),
% 1.46/1.82 inverse( X ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 17, [ =( 'double_divide'( multiply( inverse( X ), inverse( T ) ), T
% 1.46/1.82 ), X ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 19, [ =( multiply( 'double_divide'( multiply( inverse( Z ),
% 1.46/1.82 multiply( inverse( X ), inverse( inverse( Y ) ) ) ), X ), inverse( Z ) )
% 1.46/1.82 , inverse( Y ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 20, [ =( 'double_divide'( multiply( Y, multiply( multiply( Z, T ),
% 1.46/1.82 multiply( inverse( X ), inverse( Y ) ) ) ), X ), 'double_divide'( T, Z )
% 1.46/1.82 ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 21, [ =( multiply( X, multiply( Y, multiply( multiply( Z, T ),
% 1.46/1.82 multiply( inverse( X ), inverse( Y ) ) ) ) ), multiply( Z, T ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 24, [ =( 'double_divide'( multiply( Y, multiply( inverse( Z ),
% 1.46/1.82 multiply( inverse( X ), inverse( Y ) ) ) ), X ), Z ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 33, [ =( multiply( 'double_divide'( inverse( X ), X ), inverse( Y )
% 1.46/1.82 ), inverse( Y ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 35, [ =( 'double_divide'( inverse( Y ), 'double_divide'( inverse( X
% 1.46/1.82 ), X ) ), Y ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 44, [ =( multiply( 'double_divide'( inverse( Z ), Z ), multiply( Y
% 1.46/1.82 , X ) ), multiply( Y, X ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 46, [ =( multiply( inverse( Y ), multiply( X, inverse( X ) ) ),
% 1.46/1.82 inverse( Y ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 56, [ =( 'double_divide'( multiply( Y, inverse( Y ) ), inverse( X )
% 1.46/1.82 ), X ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 60, [ =( multiply( 'double_divide'( inverse( X ), Z ), inverse( X )
% 1.46/1.82 ), inverse( Z ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 63, [ =( 'double_divide'( inverse( X ), 'double_divide'( inverse( X
% 1.46/1.82 ), Z ) ), Z ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 68, [ =( multiply( multiply( Y, X ), multiply( Z, inverse( Z ) ) )
% 1.46/1.82 , multiply( Y, X ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 74, [ =( 'double_divide'( multiply( Z, T ), 'double_divide'(
% 1.46/1.82 multiply( Z, T ), Y ) ), Y ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 79, [ =( 'double_divide'( inverse( X ), X ), 'double_divide'(
% 1.46/1.82 inverse( Y ), Y ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 103, [ =( 'double_divide'( multiply( X, inverse( X ) ), Y ),
% 1.46/1.82 inverse( Y ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 111, [ =( 'double_divide'( multiply( X, multiply( inverse( Y ), Z )
% 1.46/1.82 ), Y ), 'double_divide'( Z, X ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 112, [ =( multiply( Y, multiply( X, inverse( X ) ) ), Y ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 113, [ =( inverse( inverse( Y ) ), Y ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 119, [ =( inverse( multiply( Y, Z ) ), 'double_divide'( Z, Y ) ) ]
% 1.46/1.82 )
% 1.46/1.82 .
% 1.46/1.82 clause( 133, [ =( multiply( 'double_divide'( X, Y ), X ), inverse( Y ) ) ]
% 1.46/1.82 )
% 1.46/1.82 .
% 1.46/1.82 clause( 136, [ =( multiply( 'double_divide'( Z, X ), X ), inverse( Z ) ) ]
% 1.46/1.82 )
% 1.46/1.82 .
% 1.46/1.82 clause( 147, [ =( multiply( Y, multiply( X, inverse( Y ) ) ), X ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 191, [ =( 'double_divide'( Y, 'double_divide'( X, Y ) ), X ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 192, [ =( 'double_divide'( multiply( multiply( Y, Z ), multiply(
% 1.46/1.82 inverse( T ), inverse( X ) ) ), X ), multiply( 'double_divide'( Z, Y ), T
% 1.46/1.82 ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 196, [ =( 'double_divide'( inverse( Y ), inverse( X ) ), multiply(
% 1.46/1.82 X, Y ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 207, [ =( multiply( Y, X ), multiply( X, Y ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 210, [ =( multiply( multiply( X, inverse( X ) ), Y ), Y ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 319, [ =( multiply( multiply( inverse( X ), X ), Y ), Y ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 345, [ =( multiply( inverse( X ), multiply( Y, X ) ), Y ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 365, [ =( multiply( multiply( 'double_divide'( T, Z ), X ),
% 1.46/1.82 multiply( Z, T ) ), X ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 367, [ =( multiply( inverse( X ), Y ), 'double_divide'( inverse( Y
% 1.46/1.82 ), X ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 436, [ =( multiply( Y, multiply( X, Z ) ), multiply( multiply( Y, X
% 1.46/1.82 ), Z ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 449, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ), ~( =(
% 1.46/1.82 'double_divide'( inverse( b1 ), b1 ), 'double_divide'( inverse( a1 ), a1
% 1.46/1.82 ) ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 784, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ), ~( =(
% 1.46/1.82 'double_divide'( inverse( X ), X ), 'double_divide'( inverse( a1 ), a1 )
% 1.46/1.82 ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 785, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.82 .
% 1.46/1.82 clause( 786, [] )
% 1.46/1.82 .
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 % SZS output end Refutation
% 1.46/1.82 found a proof!
% 1.46/1.82
% 1.46/1.82 % ABCDEFGHIJKLMNOPQRSTUVWXYZ
% 1.46/1.82
% 1.46/1.82 initialclauses(
% 1.46/1.82 [ clause( 788, [ =( 'double_divide'( inverse( 'double_divide'( inverse(
% 1.46/1.82 'double_divide'( X, inverse( Y ) ) ), Z ) ), 'double_divide'( X, Z ) ), Y
% 1.46/1.82 ) ] )
% 1.46/1.82 , clause( 789, [ =( multiply( X, Y ), inverse( 'double_divide'( Y, X ) ) )
% 1.46/1.82 ] )
% 1.46/1.82 , clause( 790, [ ~( =( multiply( inverse( a1 ), a1 ), multiply( inverse( b1
% 1.46/1.82 ), b1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) )
% 1.46/1.82 , ~( =( multiply( multiply( a3, b3 ), c3 ), multiply( a3, multiply( b3,
% 1.46/1.82 c3 ) ) ) ), ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.82 ] ).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 subsumption(
% 1.46/1.82 clause( 0, [ =( 'double_divide'( inverse( 'double_divide'( inverse(
% 1.46/1.82 'double_divide'( X, inverse( Y ) ) ), Z ) ), 'double_divide'( X, Z ) ), Y
% 1.46/1.82 ) ] )
% 1.46/1.82 , clause( 788, [ =( 'double_divide'( inverse( 'double_divide'( inverse(
% 1.46/1.82 'double_divide'( X, inverse( Y ) ) ), Z ) ), 'double_divide'( X, Z ) ), Y
% 1.46/1.82 ) ] )
% 1.46/1.82 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 1.46/1.82 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 eqswap(
% 1.46/1.82 clause( 793, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.82 )
% 1.46/1.82 , clause( 789, [ =( multiply( X, Y ), inverse( 'double_divide'( Y, X ) ) )
% 1.46/1.82 ] )
% 1.46/1.82 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 subsumption(
% 1.46/1.82 clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ] )
% 1.46/1.82 , clause( 793, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) )
% 1.46/1.82 ] )
% 1.46/1.82 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.82 )] ) ).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 eqswap(
% 1.46/1.82 clause( 799, [ ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ), ~( =(
% 1.46/1.82 multiply( inverse( a1 ), a1 ), multiply( inverse( b1 ), b1 ) ) ), ~( =(
% 1.46/1.82 multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ), ~( =( multiply(
% 1.46/1.82 multiply( a3, b3 ), c3 ), multiply( a3, multiply( b3, c3 ) ) ) ) ] )
% 1.46/1.82 , clause( 790, [ ~( =( multiply( inverse( a1 ), a1 ), multiply( inverse( b1
% 1.46/1.82 ), b1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) )
% 1.46/1.82 , ~( =( multiply( multiply( a3, b3 ), c3 ), multiply( a3, multiply( b3,
% 1.46/1.82 c3 ) ) ) ), ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.82 , 3, substitution( 0, [] )).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 eqswap(
% 1.46/1.82 clause( 802, [ ~( =( multiply( a3, multiply( b3, c3 ) ), multiply( multiply(
% 1.46/1.82 a3, b3 ), c3 ) ) ), ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ), ~(
% 1.46/1.82 =( multiply( inverse( a1 ), a1 ), multiply( inverse( b1 ), b1 ) ) ), ~(
% 1.46/1.82 =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ) ] )
% 1.46/1.82 , clause( 799, [ ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ), ~( =(
% 1.46/1.82 multiply( inverse( a1 ), a1 ), multiply( inverse( b1 ), b1 ) ) ), ~( =(
% 1.46/1.82 multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ), ~( =( multiply(
% 1.46/1.82 multiply( a3, b3 ), c3 ), multiply( a3, multiply( b3, c3 ) ) ) ) ] )
% 1.46/1.82 , 3, substitution( 0, [] )).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 eqswap(
% 1.46/1.82 clause( 804, [ ~( =( a2, multiply( multiply( inverse( b2 ), b2 ), a2 ) ) )
% 1.46/1.82 , ~( =( multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 )
% 1.46/1.82 , c3 ) ) ), ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ), ~( =(
% 1.46/1.82 multiply( inverse( a1 ), a1 ), multiply( inverse( b1 ), b1 ) ) ) ] )
% 1.46/1.82 , clause( 802, [ ~( =( multiply( a3, multiply( b3, c3 ) ), multiply(
% 1.46/1.82 multiply( a3, b3 ), c3 ) ) ), ~( =( multiply( b4, a4 ), multiply( a4, b4
% 1.46/1.82 ) ) ), ~( =( multiply( inverse( a1 ), a1 ), multiply( inverse( b1 ), b1
% 1.46/1.82 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ) ] )
% 1.46/1.82 , 3, substitution( 0, [] )).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 eqswap(
% 1.46/1.82 clause( 806, [ ~( =( multiply( inverse( b1 ), b1 ), multiply( inverse( a1 )
% 1.46/1.82 , a1 ) ) ), ~( =( a2, multiply( multiply( inverse( b2 ), b2 ), a2 ) ) ),
% 1.46/1.82 ~( =( multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 ),
% 1.46/1.82 c3 ) ) ), ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ) ] )
% 1.46/1.82 , clause( 804, [ ~( =( a2, multiply( multiply( inverse( b2 ), b2 ), a2 ) )
% 1.46/1.82 ), ~( =( multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3
% 1.46/1.82 ), c3 ) ) ), ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ), ~( =(
% 1.46/1.82 multiply( inverse( a1 ), a1 ), multiply( inverse( b1 ), b1 ) ) ) ] )
% 1.46/1.82 , 3, substitution( 0, [] )).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 eqswap(
% 1.46/1.82 clause( 808, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ), ~( =(
% 1.46/1.82 multiply( inverse( b1 ), b1 ), multiply( inverse( a1 ), a1 ) ) ), ~( =(
% 1.46/1.82 a2, multiply( multiply( inverse( b2 ), b2 ), a2 ) ) ), ~( =( multiply( a3
% 1.46/1.82 , multiply( b3, c3 ) ), multiply( multiply( a3, b3 ), c3 ) ) ) ] )
% 1.46/1.82 , clause( 806, [ ~( =( multiply( inverse( b1 ), b1 ), multiply( inverse( a1
% 1.46/1.82 ), a1 ) ) ), ~( =( a2, multiply( multiply( inverse( b2 ), b2 ), a2 ) ) )
% 1.46/1.82 , ~( =( multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 )
% 1.46/1.82 , c3 ) ) ), ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ) ] )
% 1.46/1.82 , 3, substitution( 0, [] )).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 eqswap(
% 1.46/1.82 clause( 809, [ ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) )
% 1.46/1.82 , ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ), ~( =( multiply(
% 1.46/1.82 inverse( b1 ), b1 ), multiply( inverse( a1 ), a1 ) ) ), ~( =( multiply(
% 1.46/1.82 a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 ), c3 ) ) ) ] )
% 1.46/1.82 , clause( 808, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ), ~( =(
% 1.46/1.82 multiply( inverse( b1 ), b1 ), multiply( inverse( a1 ), a1 ) ) ), ~( =(
% 1.46/1.82 a2, multiply( multiply( inverse( b2 ), b2 ), a2 ) ) ), ~( =( multiply( a3
% 1.46/1.82 , multiply( b3, c3 ) ), multiply( multiply( a3, b3 ), c3 ) ) ) ] )
% 1.46/1.82 , 2, substitution( 0, [] )).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 subsumption(
% 1.46/1.82 clause( 2, [ ~( =( multiply( inverse( b1 ), b1 ), multiply( inverse( a1 ),
% 1.46/1.82 a1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ),
% 1.46/1.82 ~( =( multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 ),
% 1.46/1.82 c3 ) ) ), ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.82 , clause( 809, [ ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 )
% 1.46/1.82 ), ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ), ~( =( multiply(
% 1.46/1.82 inverse( b1 ), b1 ), multiply( inverse( a1 ), a1 ) ) ), ~( =( multiply(
% 1.46/1.82 a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 ), c3 ) ) ) ] )
% 1.46/1.82 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 1 ), ==>( 1, 3 ), ==>( 2
% 1.46/1.82 , 0 ), ==>( 3, 2 )] ) ).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 paramod(
% 1.46/1.82 clause( 815, [ =( 'double_divide'( inverse( 'double_divide'( multiply(
% 1.46/1.82 inverse( Y ), X ), Z ) ), 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.82 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.82 )
% 1.46/1.82 , 0, clause( 0, [ =( 'double_divide'( inverse( 'double_divide'( inverse(
% 1.46/1.82 'double_divide'( X, inverse( Y ) ) ), Z ) ), 'double_divide'( X, Z ) ), Y
% 1.46/1.82 ) ] )
% 1.46/1.82 , 0, 4, substitution( 0, [ :=( X, inverse( Y ) ), :=( Y, X )] ),
% 1.46/1.82 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 paramod(
% 1.46/1.82 clause( 817, [ =( 'double_divide'( multiply( Z, multiply( inverse( X ), Y )
% 1.46/1.82 ), 'double_divide'( Y, Z ) ), X ) ] )
% 1.46/1.82 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.82 )
% 1.46/1.82 , 0, clause( 815, [ =( 'double_divide'( inverse( 'double_divide'( multiply(
% 1.46/1.82 inverse( Y ), X ), Z ) ), 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.82 , 0, 2, substitution( 0, [ :=( X, Z ), :=( Y, multiply( inverse( X ), Y ) )] )
% 1.46/1.82 , substitution( 1, [ :=( X, Y ), :=( Y, X ), :=( Z, Z )] )).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 subsumption(
% 1.46/1.82 clause( 3, [ =( 'double_divide'( multiply( Z, multiply( inverse( Y ), X ) )
% 1.46/1.82 , 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.82 , clause( 817, [ =( 'double_divide'( multiply( Z, multiply( inverse( X ), Y
% 1.46/1.82 ) ), 'double_divide'( Y, Z ) ), X ) ] )
% 1.46/1.82 , substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z )] ),
% 1.46/1.82 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 eqswap(
% 1.46/1.82 clause( 819, [ =( Y, 'double_divide'( multiply( X, multiply( inverse( Y ),
% 1.46/1.82 Z ) ), 'double_divide'( Z, X ) ) ) ] )
% 1.46/1.82 , clause( 3, [ =( 'double_divide'( multiply( Z, multiply( inverse( Y ), X )
% 1.46/1.82 ), 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.82 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X )] )).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 paramod(
% 1.46/1.82 clause( 822, [ =( X, 'double_divide'( multiply( 'double_divide'( Y, Z ),
% 1.46/1.82 multiply( inverse( X ), multiply( Z, multiply( inverse( T ), Y ) ) ) ), T
% 1.46/1.82 ) ) ] )
% 1.46/1.82 , clause( 3, [ =( 'double_divide'( multiply( Z, multiply( inverse( Y ), X )
% 1.46/1.82 ), 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.82 , 0, clause( 819, [ =( Y, 'double_divide'( multiply( X, multiply( inverse(
% 1.46/1.82 Y ), Z ) ), 'double_divide'( Z, X ) ) ) ] )
% 1.46/1.82 , 0, 16, substitution( 0, [ :=( X, Y ), :=( Y, T ), :=( Z, Z )] ),
% 1.46/1.82 substitution( 1, [ :=( X, 'double_divide'( Y, Z ) ), :=( Y, X ), :=( Z,
% 1.46/1.82 multiply( Z, multiply( inverse( T ), Y ) ) )] )).
% 1.46/1.82
% 1.46/1.82
% 1.46/1.82 eqswap(
% 1.46/1.82 clause( 823, [ =( 'double_divide'( multiply( 'double_divide'( Y, Z ),
% 1.46/1.83 multiply( inverse( X ), multiply( Z, multiply( inverse( T ), Y ) ) ) ), T
% 1.46/1.83 ), X ) ] )
% 1.46/1.83 , clause( 822, [ =( X, 'double_divide'( multiply( 'double_divide'( Y, Z ),
% 1.46/1.83 multiply( inverse( X ), multiply( Z, multiply( inverse( T ), Y ) ) ) ), T
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 4, [ =( 'double_divide'( multiply( 'double_divide'( Z, X ),
% 1.46/1.83 multiply( inverse( T ), multiply( X, multiply( inverse( Y ), Z ) ) ) ), Y
% 1.46/1.83 ), T ) ] )
% 1.46/1.83 , clause( 823, [ =( 'double_divide'( multiply( 'double_divide'( Y, Z ),
% 1.46/1.83 multiply( inverse( X ), multiply( Z, multiply( inverse( T ), Y ) ) ) ), T
% 1.46/1.83 ), X ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 825, [ =( multiply( Y, X ), inverse( 'double_divide'( X, Y ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 828, [ =( multiply( 'double_divide'( X, Y ), multiply( Y, multiply(
% 1.46/1.83 inverse( Z ), X ) ) ), inverse( Z ) ) ] )
% 1.46/1.83 , clause( 3, [ =( 'double_divide'( multiply( Z, multiply( inverse( Y ), X )
% 1.46/1.83 ), 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 825, [ =( multiply( Y, X ), inverse( 'double_divide'( X, Y ) )
% 1.46/1.83 ) ] )
% 1.46/1.83 , 0, 12, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, Y )] ),
% 1.46/1.83 substitution( 1, [ :=( X, multiply( Y, multiply( inverse( Z ), X ) ) ),
% 1.46/1.83 :=( Y, 'double_divide'( X, Y ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 5, [ =( multiply( 'double_divide'( Z, X ), multiply( X, multiply(
% 1.46/1.83 inverse( Y ), Z ) ) ), inverse( Y ) ) ] )
% 1.46/1.83 , clause( 828, [ =( multiply( 'double_divide'( X, Y ), multiply( Y,
% 1.46/1.83 multiply( inverse( Z ), X ) ) ), inverse( Z ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Z ), :=( Y, X ), :=( Z, Y )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 831, [ =( Y, 'double_divide'( multiply( X, multiply( inverse( Y ),
% 1.46/1.83 Z ) ), 'double_divide'( Z, X ) ) ) ] )
% 1.46/1.83 , clause( 3, [ =( 'double_divide'( multiply( Z, multiply( inverse( Y ), X )
% 1.46/1.83 ), 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 834, [ =( 'double_divide'( X, Y ), 'double_divide'( multiply( Z,
% 1.46/1.83 multiply( multiply( Y, X ), T ) ), 'double_divide'( T, Z ) ) ) ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 831, [ =( Y, 'double_divide'( multiply( X, multiply( inverse(
% 1.46/1.83 Y ), Z ) ), 'double_divide'( Z, X ) ) ) ] )
% 1.46/1.83 , 0, 8, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [
% 1.46/1.83 :=( X, Z ), :=( Y, 'double_divide'( X, Y ) ), :=( Z, T )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 835, [ =( 'double_divide'( multiply( Z, multiply( multiply( Y, X )
% 1.46/1.83 , T ) ), 'double_divide'( T, Z ) ), 'double_divide'( X, Y ) ) ] )
% 1.46/1.83 , clause( 834, [ =( 'double_divide'( X, Y ), 'double_divide'( multiply( Z,
% 1.46/1.83 multiply( multiply( Y, X ), T ) ), 'double_divide'( T, Z ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 6, [ =( 'double_divide'( multiply( Z, multiply( multiply( Y, X ), T
% 1.46/1.83 ) ), 'double_divide'( T, Z ) ), 'double_divide'( X, Y ) ) ] )
% 1.46/1.83 , clause( 835, [ =( 'double_divide'( multiply( Z, multiply( multiply( Y, X
% 1.46/1.83 ), T ) ), 'double_divide'( T, Z ) ), 'double_divide'( X, Y ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 836, [ =( inverse( Z ), multiply( 'double_divide'( X, Y ), multiply(
% 1.46/1.83 Y, multiply( inverse( Z ), X ) ) ) ) ] )
% 1.46/1.83 , clause( 5, [ =( multiply( 'double_divide'( Z, X ), multiply( X, multiply(
% 1.46/1.83 inverse( Y ), Z ) ) ), inverse( Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 839, [ =( inverse( X ), multiply( 'double_divide'( multiply(
% 1.46/1.83 inverse( Y ), Z ), 'double_divide'( Z, inverse( X ) ) ), inverse( Y ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , clause( 5, [ =( multiply( 'double_divide'( Z, X ), multiply( X, multiply(
% 1.46/1.83 inverse( Y ), Z ) ) ), inverse( Y ) ) ] )
% 1.46/1.83 , 0, clause( 836, [ =( inverse( Z ), multiply( 'double_divide'( X, Y ),
% 1.46/1.83 multiply( Y, multiply( inverse( Z ), X ) ) ) ) ] )
% 1.46/1.83 , 0, 13, substitution( 0, [ :=( X, inverse( X ) ), :=( Y, Y ), :=( Z, Z )] )
% 1.46/1.83 , substitution( 1, [ :=( X, multiply( inverse( Y ), Z ) ), :=( Y,
% 1.46/1.83 'double_divide'( Z, inverse( X ) ) ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 840, [ =( multiply( 'double_divide'( multiply( inverse( Y ), Z ),
% 1.46/1.83 'double_divide'( Z, inverse( X ) ) ), inverse( Y ) ), inverse( X ) ) ] )
% 1.46/1.83 , clause( 839, [ =( inverse( X ), multiply( 'double_divide'( multiply(
% 1.46/1.83 inverse( Y ), Z ), 'double_divide'( Z, inverse( X ) ) ), inverse( Y ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 7, [ =( multiply( 'double_divide'( multiply( inverse( Z ), X ),
% 1.46/1.83 'double_divide'( X, inverse( Y ) ) ), inverse( Z ) ), inverse( Y ) ) ] )
% 1.46/1.83 , clause( 840, [ =( multiply( 'double_divide'( multiply( inverse( Y ), Z )
% 1.46/1.83 , 'double_divide'( Z, inverse( X ) ) ), inverse( Y ) ), inverse( X ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 842, [ =( Y, 'double_divide'( multiply( X, multiply( inverse( Y ),
% 1.46/1.83 Z ) ), 'double_divide'( Z, X ) ) ) ] )
% 1.46/1.83 , clause( 3, [ =( 'double_divide'( multiply( Z, multiply( inverse( Y ), X )
% 1.46/1.83 ), 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 845, [ =( X, 'double_divide'( inverse( Z ), 'double_divide'(
% 1.46/1.83 multiply( inverse( Z ), Y ), 'double_divide'( Y, inverse( X ) ) ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 5, [ =( multiply( 'double_divide'( Z, X ), multiply( X, multiply(
% 1.46/1.83 inverse( Y ), Z ) ) ), inverse( Y ) ) ] )
% 1.46/1.83 , 0, clause( 842, [ =( Y, 'double_divide'( multiply( X, multiply( inverse(
% 1.46/1.83 Y ), Z ) ), 'double_divide'( Z, X ) ) ) ] )
% 1.46/1.83 , 0, 3, substitution( 0, [ :=( X, inverse( X ) ), :=( Y, Z ), :=( Z, Y )] )
% 1.46/1.83 , substitution( 1, [ :=( X, 'double_divide'( Y, inverse( X ) ) ), :=( Y,
% 1.46/1.83 X ), :=( Z, multiply( inverse( Z ), Y ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 846, [ =( 'double_divide'( inverse( Y ), 'double_divide'( multiply(
% 1.46/1.83 inverse( Y ), Z ), 'double_divide'( Z, inverse( X ) ) ) ), X ) ] )
% 1.46/1.83 , clause( 845, [ =( X, 'double_divide'( inverse( Z ), 'double_divide'(
% 1.46/1.83 multiply( inverse( Z ), Y ), 'double_divide'( Y, inverse( X ) ) ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 8, [ =( 'double_divide'( inverse( Z ), 'double_divide'( multiply(
% 1.46/1.83 inverse( Z ), X ), 'double_divide'( X, inverse( Y ) ) ) ), Y ) ] )
% 1.46/1.83 , clause( 846, [ =( 'double_divide'( inverse( Y ), 'double_divide'(
% 1.46/1.83 multiply( inverse( Y ), Z ), 'double_divide'( Z, inverse( X ) ) ) ), X )
% 1.46/1.83 ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 848, [ =( inverse( Z ), multiply( 'double_divide'( X, Y ), multiply(
% 1.46/1.83 Y, multiply( inverse( Z ), X ) ) ) ) ] )
% 1.46/1.83 , clause( 5, [ =( multiply( 'double_divide'( Z, X ), multiply( X, multiply(
% 1.46/1.83 inverse( Y ), Z ) ) ), inverse( Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 851, [ =( inverse( X ), multiply( Z, multiply( 'double_divide'( T,
% 1.46/1.83 Y ), multiply( inverse( X ), multiply( Y, multiply( inverse( Z ), T ) ) )
% 1.46/1.83 ) ) ) ] )
% 1.46/1.83 , clause( 3, [ =( 'double_divide'( multiply( Z, multiply( inverse( Y ), X )
% 1.46/1.83 ), 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 848, [ =( inverse( Z ), multiply( 'double_divide'( X, Y ),
% 1.46/1.83 multiply( Y, multiply( inverse( Z ), X ) ) ) ) ] )
% 1.46/1.83 , 0, 4, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, Y )] ),
% 1.46/1.83 substitution( 1, [ :=( X, multiply( Y, multiply( inverse( Z ), T ) ) ),
% 1.46/1.83 :=( Y, 'double_divide'( T, Y ) ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 852, [ =( multiply( Y, multiply( 'double_divide'( Z, T ), multiply(
% 1.46/1.83 inverse( X ), multiply( T, multiply( inverse( Y ), Z ) ) ) ) ), inverse(
% 1.46/1.83 X ) ) ] )
% 1.46/1.83 , clause( 851, [ =( inverse( X ), multiply( Z, multiply( 'double_divide'( T
% 1.46/1.83 , Y ), multiply( inverse( X ), multiply( Y, multiply( inverse( Z ), T ) )
% 1.46/1.83 ) ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, Y ), :=( T, Z )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 9, [ =( multiply( Y, multiply( 'double_divide'( Z, X ), multiply(
% 1.46/1.83 inverse( T ), multiply( X, multiply( inverse( Y ), Z ) ) ) ) ), inverse(
% 1.46/1.83 T ) ) ] )
% 1.46/1.83 , clause( 852, [ =( multiply( Y, multiply( 'double_divide'( Z, T ),
% 1.46/1.83 multiply( inverse( X ), multiply( T, multiply( inverse( Y ), Z ) ) ) ) )
% 1.46/1.83 , inverse( X ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, T ), :=( Y, Y ), :=( Z, Z ), :=( T, X )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 854, [ =( inverse( Z ), multiply( 'double_divide'( X, Y ), multiply(
% 1.46/1.83 Y, multiply( inverse( Z ), X ) ) ) ) ] )
% 1.46/1.83 , clause( 5, [ =( multiply( 'double_divide'( Z, X ), multiply( X, multiply(
% 1.46/1.83 inverse( Y ), Z ) ) ), inverse( Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 858, [ =( inverse( 'double_divide'( X, Y ) ), multiply(
% 1.46/1.83 'double_divide'( Z, T ), multiply( T, multiply( multiply( Y, X ), Z ) ) )
% 1.46/1.83 ) ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 854, [ =( inverse( Z ), multiply( 'double_divide'( X, Y ),
% 1.46/1.83 multiply( Y, multiply( inverse( Z ), X ) ) ) ) ] )
% 1.46/1.83 , 0, 12, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [
% 1.46/1.83 :=( X, Z ), :=( Y, T ), :=( Z, 'double_divide'( X, Y ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 859, [ =( multiply( Y, X ), multiply( 'double_divide'( Z, T ),
% 1.46/1.83 multiply( T, multiply( multiply( Y, X ), Z ) ) ) ) ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 858, [ =( inverse( 'double_divide'( X, Y ) ), multiply(
% 1.46/1.83 'double_divide'( Z, T ), multiply( T, multiply( multiply( Y, X ), Z ) ) )
% 1.46/1.83 ) ] )
% 1.46/1.83 , 0, 1, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [
% 1.46/1.83 :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 861, [ =( multiply( 'double_divide'( Z, T ), multiply( T, multiply(
% 1.46/1.83 multiply( X, Y ), Z ) ) ), multiply( X, Y ) ) ] )
% 1.46/1.83 , clause( 859, [ =( multiply( Y, X ), multiply( 'double_divide'( Z, T ),
% 1.46/1.83 multiply( T, multiply( multiply( Y, X ), Z ) ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z ), :=( T, T )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 10, [ =( multiply( 'double_divide'( Z, T ), multiply( T, multiply(
% 1.46/1.83 multiply( Y, X ), Z ) ) ), multiply( Y, X ) ) ] )
% 1.46/1.83 , clause( 861, [ =( multiply( 'double_divide'( Z, T ), multiply( T,
% 1.46/1.83 multiply( multiply( X, Y ), Z ) ) ), multiply( X, Y ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z ), :=( T, T )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 864, [ =( Z, 'double_divide'( inverse( X ), 'double_divide'(
% 1.46/1.83 multiply( inverse( X ), Y ), 'double_divide'( Y, inverse( Z ) ) ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 8, [ =( 'double_divide'( inverse( Z ), 'double_divide'( multiply(
% 1.46/1.83 inverse( Z ), X ), 'double_divide'( X, inverse( Y ) ) ) ), Y ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 868, [ =( X, 'double_divide'( inverse( 'double_divide'( Y, Z ) ),
% 1.46/1.83 'double_divide'( multiply( multiply( Z, Y ), T ), 'double_divide'( T,
% 1.46/1.83 inverse( X ) ) ) ) ) ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 864, [ =( Z, 'double_divide'( inverse( X ), 'double_divide'(
% 1.46/1.83 multiply( inverse( X ), Y ), 'double_divide'( Y, inverse( Z ) ) ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, 9, substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, 'double_divide'( Y, Z ) ), :=( Y, T ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 870, [ =( X, 'double_divide'( multiply( Z, Y ), 'double_divide'(
% 1.46/1.83 multiply( multiply( Z, Y ), T ), 'double_divide'( T, inverse( X ) ) ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 868, [ =( X, 'double_divide'( inverse( 'double_divide'( Y, Z )
% 1.46/1.83 ), 'double_divide'( multiply( multiply( Z, Y ), T ), 'double_divide'( T
% 1.46/1.83 , inverse( X ) ) ) ) ) ] )
% 1.46/1.83 , 0, 3, substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 872, [ =( 'double_divide'( multiply( Y, Z ), 'double_divide'(
% 1.46/1.83 multiply( multiply( Y, Z ), T ), 'double_divide'( T, inverse( X ) ) ) ),
% 1.46/1.83 X ) ] )
% 1.46/1.83 , clause( 870, [ =( X, 'double_divide'( multiply( Z, Y ), 'double_divide'(
% 1.46/1.83 multiply( multiply( Z, Y ), T ), 'double_divide'( T, inverse( X ) ) ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, Y ), :=( T, T )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 11, [ =( 'double_divide'( multiply( Y, X ), 'double_divide'(
% 1.46/1.83 multiply( multiply( Y, X ), Z ), 'double_divide'( Z, inverse( T ) ) ) ),
% 1.46/1.83 T ) ] )
% 1.46/1.83 , clause( 872, [ =( 'double_divide'( multiply( Y, Z ), 'double_divide'(
% 1.46/1.83 multiply( multiply( Y, Z ), T ), 'double_divide'( T, inverse( X ) ) ) ),
% 1.46/1.83 X ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, T ), :=( Y, Y ), :=( Z, X ), :=( T, Z )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 876, [ =( Z, 'double_divide'( inverse( X ), 'double_divide'(
% 1.46/1.83 multiply( inverse( X ), Y ), 'double_divide'( Y, inverse( Z ) ) ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 8, [ =( 'double_divide'( inverse( Z ), 'double_divide'( multiply(
% 1.46/1.83 inverse( Z ), X ), 'double_divide'( X, inverse( Y ) ) ) ), Y ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 881, [ =( 'double_divide'( X, Y ), 'double_divide'( inverse( Z ),
% 1.46/1.83 'double_divide'( multiply( inverse( Z ), T ), 'double_divide'( T,
% 1.46/1.83 multiply( Y, X ) ) ) ) ) ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 876, [ =( Z, 'double_divide'( inverse( X ), 'double_divide'(
% 1.46/1.83 multiply( inverse( X ), Y ), 'double_divide'( Y, inverse( Z ) ) ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, 14, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [
% 1.46/1.83 :=( X, Z ), :=( Y, T ), :=( Z, 'double_divide'( X, Y ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 886, [ =( 'double_divide'( inverse( Z ), 'double_divide'( multiply(
% 1.46/1.83 inverse( Z ), T ), 'double_divide'( T, multiply( Y, X ) ) ) ),
% 1.46/1.83 'double_divide'( X, Y ) ) ] )
% 1.46/1.83 , clause( 881, [ =( 'double_divide'( X, Y ), 'double_divide'( inverse( Z )
% 1.46/1.83 , 'double_divide'( multiply( inverse( Z ), T ), 'double_divide'( T,
% 1.46/1.83 multiply( Y, X ) ) ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 12, [ =( 'double_divide'( inverse( Z ), 'double_divide'( multiply(
% 1.46/1.83 inverse( Z ), T ), 'double_divide'( T, multiply( Y, X ) ) ) ),
% 1.46/1.83 'double_divide'( X, Y ) ) ] )
% 1.46/1.83 , clause( 886, [ =( 'double_divide'( inverse( Z ), 'double_divide'(
% 1.46/1.83 multiply( inverse( Z ), T ), 'double_divide'( T, multiply( Y, X ) ) ) ),
% 1.46/1.83 'double_divide'( X, Y ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 887, [ =( inverse( T ), multiply( X, multiply( 'double_divide'( Y,
% 1.46/1.83 Z ), multiply( inverse( T ), multiply( Z, multiply( inverse( X ), Y ) ) )
% 1.46/1.83 ) ) ) ] )
% 1.46/1.83 , clause( 9, [ =( multiply( Y, multiply( 'double_divide'( Z, X ), multiply(
% 1.46/1.83 inverse( T ), multiply( X, multiply( inverse( Y ), Z ) ) ) ) ), inverse(
% 1.46/1.83 T ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Z ), :=( Y, X ), :=( Z, Y ), :=( T, T )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 891, [ =( inverse( X ), multiply( Y, multiply( 'double_divide'(
% 1.46/1.83 multiply( Z, multiply( inverse( inverse( X ) ), T ) ), 'double_divide'( T
% 1.46/1.83 , Z ) ), inverse( Y ) ) ) ) ] )
% 1.46/1.83 , clause( 9, [ =( multiply( Y, multiply( 'double_divide'( Z, X ), multiply(
% 1.46/1.83 inverse( T ), multiply( X, multiply( inverse( Y ), Z ) ) ) ) ), inverse(
% 1.46/1.83 T ) ) ] )
% 1.46/1.83 , 0, clause( 887, [ =( inverse( T ), multiply( X, multiply( 'double_divide'(
% 1.46/1.83 Y, Z ), multiply( inverse( T ), multiply( Z, multiply( inverse( X ), Y )
% 1.46/1.83 ) ) ) ) ) ] )
% 1.46/1.83 , 0, 17, substitution( 0, [ :=( X, Z ), :=( Y, inverse( X ) ), :=( Z, T ),
% 1.46/1.83 :=( T, Y )] ), substitution( 1, [ :=( X, Y ), :=( Y, multiply( Z,
% 1.46/1.83 multiply( inverse( inverse( X ) ), T ) ) ), :=( Z, 'double_divide'( T, Z
% 1.46/1.83 ) ), :=( T, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 893, [ =( inverse( X ), multiply( Y, multiply( inverse( X ),
% 1.46/1.83 inverse( Y ) ) ) ) ] )
% 1.46/1.83 , clause( 3, [ =( 'double_divide'( multiply( Z, multiply( inverse( Y ), X )
% 1.46/1.83 ), 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 891, [ =( inverse( X ), multiply( Y, multiply( 'double_divide'(
% 1.46/1.83 multiply( Z, multiply( inverse( inverse( X ) ), T ) ), 'double_divide'( T
% 1.46/1.83 , Z ) ), inverse( Y ) ) ) ) ] )
% 1.46/1.83 , 0, 6, substitution( 0, [ :=( X, T ), :=( Y, inverse( X ) ), :=( Z, Z )] )
% 1.46/1.83 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 894, [ =( multiply( Y, multiply( inverse( X ), inverse( Y ) ) ),
% 1.46/1.83 inverse( X ) ) ] )
% 1.46/1.83 , clause( 893, [ =( inverse( X ), multiply( Y, multiply( inverse( X ),
% 1.46/1.83 inverse( Y ) ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 16, [ =( multiply( T, multiply( inverse( X ), inverse( T ) ) ),
% 1.46/1.83 inverse( X ) ) ] )
% 1.46/1.83 , clause( 894, [ =( multiply( Y, multiply( inverse( X ), inverse( Y ) ) ),
% 1.46/1.83 inverse( X ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, X ), :=( Y, T )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 896, [ =( Z, 'double_divide'( multiply( 'double_divide'( X, Y ),
% 1.46/1.83 multiply( inverse( Z ), multiply( Y, multiply( inverse( T ), X ) ) ) ), T
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , clause( 4, [ =( 'double_divide'( multiply( 'double_divide'( Z, X ),
% 1.46/1.83 multiply( inverse( T ), multiply( X, multiply( inverse( Y ), Z ) ) ) ), Y
% 1.46/1.83 ), T ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, T ), :=( Z, X ), :=( T, Z )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 899, [ =( X, 'double_divide'( multiply( 'double_divide'( multiply(
% 1.46/1.83 Y, multiply( inverse( inverse( X ) ), Z ) ), 'double_divide'( Z, Y ) ),
% 1.46/1.83 inverse( T ) ), T ) ) ] )
% 1.46/1.83 , clause( 9, [ =( multiply( Y, multiply( 'double_divide'( Z, X ), multiply(
% 1.46/1.83 inverse( T ), multiply( X, multiply( inverse( Y ), Z ) ) ) ) ), inverse(
% 1.46/1.83 T ) ) ] )
% 1.46/1.83 , 0, clause( 896, [ =( Z, 'double_divide'( multiply( 'double_divide'( X, Y
% 1.46/1.83 ), multiply( inverse( Z ), multiply( Y, multiply( inverse( T ), X ) ) )
% 1.46/1.83 ), T ) ) ] )
% 1.46/1.83 , 0, 15, substitution( 0, [ :=( X, Y ), :=( Y, inverse( X ) ), :=( Z, Z ),
% 1.46/1.83 :=( T, T )] ), substitution( 1, [ :=( X, multiply( Y, multiply( inverse(
% 1.46/1.83 inverse( X ) ), Z ) ) ), :=( Y, 'double_divide'( Z, Y ) ), :=( Z, X ),
% 1.46/1.83 :=( T, T )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 901, [ =( X, 'double_divide'( multiply( inverse( X ), inverse( T )
% 1.46/1.83 ), T ) ) ] )
% 1.46/1.83 , clause( 3, [ =( 'double_divide'( multiply( Z, multiply( inverse( Y ), X )
% 1.46/1.83 ), 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 899, [ =( X, 'double_divide'( multiply( 'double_divide'(
% 1.46/1.83 multiply( Y, multiply( inverse( inverse( X ) ), Z ) ), 'double_divide'( Z
% 1.46/1.83 , Y ) ), inverse( T ) ), T ) ) ] )
% 1.46/1.83 , 0, 4, substitution( 0, [ :=( X, Z ), :=( Y, inverse( X ) ), :=( Z, Y )] )
% 1.46/1.83 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 902, [ =( 'double_divide'( multiply( inverse( X ), inverse( Y ) ),
% 1.46/1.83 Y ), X ) ] )
% 1.46/1.83 , clause( 901, [ =( X, 'double_divide'( multiply( inverse( X ), inverse( T
% 1.46/1.83 ) ), T ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, T ), :=( T, Y )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 17, [ =( 'double_divide'( multiply( inverse( X ), inverse( T ) ), T
% 1.46/1.83 ), X ) ] )
% 1.46/1.83 , clause( 902, [ =( 'double_divide'( multiply( inverse( X ), inverse( Y ) )
% 1.46/1.83 , Y ), X ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, X ), :=( Y, T )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 904, [ =( inverse( Z ), multiply( 'double_divide'( multiply(
% 1.46/1.83 inverse( X ), Y ), 'double_divide'( Y, inverse( Z ) ) ), inverse( X ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , clause( 7, [ =( multiply( 'double_divide'( multiply( inverse( Z ), X ),
% 1.46/1.83 'double_divide'( X, inverse( Y ) ) ), inverse( Z ) ), inverse( Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 905, [ =( inverse( X ), multiply( 'double_divide'( multiply(
% 1.46/1.83 inverse( Y ), multiply( inverse( Z ), inverse( inverse( X ) ) ) ), Z ),
% 1.46/1.83 inverse( Y ) ) ) ] )
% 1.46/1.83 , clause( 17, [ =( 'double_divide'( multiply( inverse( X ), inverse( T ) )
% 1.46/1.83 , T ), X ) ] )
% 1.46/1.83 , 0, clause( 904, [ =( inverse( Z ), multiply( 'double_divide'( multiply(
% 1.46/1.83 inverse( X ), Y ), 'double_divide'( Y, inverse( Z ) ) ), inverse( X ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, 14, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T,
% 1.46/1.83 inverse( X ) )] ), substitution( 1, [ :=( X, Y ), :=( Y, multiply(
% 1.46/1.83 inverse( Z ), inverse( inverse( X ) ) ) ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 906, [ =( multiply( 'double_divide'( multiply( inverse( Y ),
% 1.46/1.83 multiply( inverse( Z ), inverse( inverse( X ) ) ) ), Z ), inverse( Y ) )
% 1.46/1.83 , inverse( X ) ) ] )
% 1.46/1.83 , clause( 905, [ =( inverse( X ), multiply( 'double_divide'( multiply(
% 1.46/1.83 inverse( Y ), multiply( inverse( Z ), inverse( inverse( X ) ) ) ), Z ),
% 1.46/1.83 inverse( Y ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 19, [ =( multiply( 'double_divide'( multiply( inverse( Z ),
% 1.46/1.83 multiply( inverse( X ), inverse( inverse( Y ) ) ) ), X ), inverse( Z ) )
% 1.46/1.83 , inverse( Y ) ) ] )
% 1.46/1.83 , clause( 906, [ =( multiply( 'double_divide'( multiply( inverse( Y ),
% 1.46/1.83 multiply( inverse( Z ), inverse( inverse( X ) ) ) ), Z ), inverse( Y ) )
% 1.46/1.83 , inverse( X ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 908, [ =( 'double_divide'( Z, Y ), 'double_divide'( multiply( X,
% 1.46/1.83 multiply( multiply( Y, Z ), T ) ), 'double_divide'( T, X ) ) ) ] )
% 1.46/1.83 , clause( 6, [ =( 'double_divide'( multiply( Z, multiply( multiply( Y, X )
% 1.46/1.83 , T ) ), 'double_divide'( T, Z ) ), 'double_divide'( X, Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X ), :=( T, T )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 910, [ =( 'double_divide'( X, Y ), 'double_divide'( multiply( Z,
% 1.46/1.83 multiply( multiply( Y, X ), multiply( inverse( T ), inverse( Z ) ) ) ), T
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , clause( 17, [ =( 'double_divide'( multiply( inverse( X ), inverse( T ) )
% 1.46/1.83 , T ), X ) ] )
% 1.46/1.83 , 0, clause( 908, [ =( 'double_divide'( Z, Y ), 'double_divide'( multiply(
% 1.46/1.83 X, multiply( multiply( Y, Z ), T ) ), 'double_divide'( T, X ) ) ) ] )
% 1.46/1.83 , 0, 16, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, W ), :=( T, Z )] )
% 1.46/1.83 , substitution( 1, [ :=( X, Z ), :=( Y, Y ), :=( Z, X ), :=( T, multiply(
% 1.46/1.83 inverse( T ), inverse( Z ) ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 912, [ =( 'double_divide'( multiply( Z, multiply( multiply( Y, X )
% 1.46/1.83 , multiply( inverse( T ), inverse( Z ) ) ) ), T ), 'double_divide'( X, Y
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , clause( 910, [ =( 'double_divide'( X, Y ), 'double_divide'( multiply( Z,
% 1.46/1.83 multiply( multiply( Y, X ), multiply( inverse( T ), inverse( Z ) ) ) ), T
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 20, [ =( 'double_divide'( multiply( Y, multiply( multiply( Z, T ),
% 1.46/1.83 multiply( inverse( X ), inverse( Y ) ) ) ), X ), 'double_divide'( T, Z )
% 1.46/1.83 ) ] )
% 1.46/1.83 , clause( 912, [ =( 'double_divide'( multiply( Z, multiply( multiply( Y, X
% 1.46/1.83 ), multiply( inverse( T ), inverse( Z ) ) ) ), T ), 'double_divide'( X,
% 1.46/1.83 Y ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, Y ), :=( T, X )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 914, [ =( multiply( Z, T ), multiply( 'double_divide'( X, Y ),
% 1.46/1.83 multiply( Y, multiply( multiply( Z, T ), X ) ) ) ) ] )
% 1.46/1.83 , clause( 10, [ =( multiply( 'double_divide'( Z, T ), multiply( T, multiply(
% 1.46/1.83 multiply( Y, X ), Z ) ) ), multiply( Y, X ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 915, [ =( multiply( X, Y ), multiply( Z, multiply( T, multiply(
% 1.46/1.83 multiply( X, Y ), multiply( inverse( Z ), inverse( T ) ) ) ) ) ) ] )
% 1.46/1.83 , clause( 17, [ =( 'double_divide'( multiply( inverse( X ), inverse( T ) )
% 1.46/1.83 , T ), X ) ] )
% 1.46/1.83 , 0, clause( 914, [ =( multiply( Z, T ), multiply( 'double_divide'( X, Y )
% 1.46/1.83 , multiply( Y, multiply( multiply( Z, T ), X ) ) ) ) ] )
% 1.46/1.83 , 0, 5, substitution( 0, [ :=( X, Z ), :=( Y, U ), :=( Z, W ), :=( T, T )] )
% 1.46/1.83 , substitution( 1, [ :=( X, multiply( inverse( Z ), inverse( T ) ) ),
% 1.46/1.83 :=( Y, T ), :=( Z, X ), :=( T, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 916, [ =( multiply( Z, multiply( T, multiply( multiply( X, Y ),
% 1.46/1.83 multiply( inverse( Z ), inverse( T ) ) ) ) ), multiply( X, Y ) ) ] )
% 1.46/1.83 , clause( 915, [ =( multiply( X, Y ), multiply( Z, multiply( T, multiply(
% 1.46/1.83 multiply( X, Y ), multiply( inverse( Z ), inverse( T ) ) ) ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 21, [ =( multiply( X, multiply( Y, multiply( multiply( Z, T ),
% 1.46/1.83 multiply( inverse( X ), inverse( Y ) ) ) ) ), multiply( Z, T ) ) ] )
% 1.46/1.83 , clause( 916, [ =( multiply( Z, multiply( T, multiply( multiply( X, Y ),
% 1.46/1.83 multiply( inverse( Z ), inverse( T ) ) ) ) ), multiply( X, Y ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, X ), :=( T, Y )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 918, [ =( Y, 'double_divide'( multiply( X, multiply( inverse( Y ),
% 1.46/1.83 Z ) ), 'double_divide'( Z, X ) ) ) ] )
% 1.46/1.83 , clause( 3, [ =( 'double_divide'( multiply( Z, multiply( inverse( Y ), X )
% 1.46/1.83 ), 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 919, [ =( X, 'double_divide'( multiply( Y, multiply( inverse( X ),
% 1.46/1.83 multiply( inverse( Z ), inverse( Y ) ) ) ), Z ) ) ] )
% 1.46/1.83 , clause( 17, [ =( 'double_divide'( multiply( inverse( X ), inverse( T ) )
% 1.46/1.83 , T ), X ) ] )
% 1.46/1.83 , 0, clause( 918, [ =( Y, 'double_divide'( multiply( X, multiply( inverse(
% 1.46/1.83 Y ), Z ) ), 'double_divide'( Z, X ) ) ) ] )
% 1.46/1.83 , 0, 13, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T, Y )] )
% 1.46/1.83 , substitution( 1, [ :=( X, Y ), :=( Y, X ), :=( Z, multiply( inverse( Z
% 1.46/1.83 ), inverse( Y ) ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 920, [ =( 'double_divide'( multiply( Y, multiply( inverse( X ),
% 1.46/1.83 multiply( inverse( Z ), inverse( Y ) ) ) ), Z ), X ) ] )
% 1.46/1.83 , clause( 919, [ =( X, 'double_divide'( multiply( Y, multiply( inverse( X )
% 1.46/1.83 , multiply( inverse( Z ), inverse( Y ) ) ) ), Z ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 24, [ =( 'double_divide'( multiply( Y, multiply( inverse( Z ),
% 1.46/1.83 multiply( inverse( X ), inverse( Y ) ) ) ), X ), Z ) ] )
% 1.46/1.83 , clause( 920, [ =( 'double_divide'( multiply( Y, multiply( inverse( X ),
% 1.46/1.83 multiply( inverse( Z ), inverse( Y ) ) ) ), Z ), X ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 922, [ =( inverse( Z ), multiply( 'double_divide'( X, Y ), multiply(
% 1.46/1.83 Y, multiply( inverse( Z ), X ) ) ) ) ] )
% 1.46/1.83 , clause( 5, [ =( multiply( 'double_divide'( Z, X ), multiply( X, multiply(
% 1.46/1.83 inverse( Y ), Z ) ) ), inverse( Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 923, [ =( inverse( X ), multiply( 'double_divide'( inverse( Y ), Y
% 1.46/1.83 ), inverse( X ) ) ) ] )
% 1.46/1.83 , clause( 16, [ =( multiply( T, multiply( inverse( X ), inverse( T ) ) ),
% 1.46/1.83 inverse( X ) ) ] )
% 1.46/1.83 , 0, clause( 922, [ =( inverse( Z ), multiply( 'double_divide'( X, Y ),
% 1.46/1.83 multiply( Y, multiply( inverse( Z ), X ) ) ) ) ] )
% 1.46/1.83 , 0, 8, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, T ), :=( T, Y )] )
% 1.46/1.83 , substitution( 1, [ :=( X, inverse( Y ) ), :=( Y, Y ), :=( Z, X )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 925, [ =( multiply( 'double_divide'( inverse( Y ), Y ), inverse( X
% 1.46/1.83 ) ), inverse( X ) ) ] )
% 1.46/1.83 , clause( 923, [ =( inverse( X ), multiply( 'double_divide'( inverse( Y ),
% 1.46/1.83 Y ), inverse( X ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 33, [ =( multiply( 'double_divide'( inverse( X ), X ), inverse( Y )
% 1.46/1.83 ), inverse( Y ) ) ] )
% 1.46/1.83 , clause( 925, [ =( multiply( 'double_divide'( inverse( Y ), Y ), inverse(
% 1.46/1.83 X ) ), inverse( X ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 928, [ =( Y, 'double_divide'( multiply( X, multiply( inverse( Y ),
% 1.46/1.83 Z ) ), 'double_divide'( Z, X ) ) ) ] )
% 1.46/1.83 , clause( 3, [ =( 'double_divide'( multiply( Z, multiply( inverse( Y ), X )
% 1.46/1.83 ), 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 929, [ =( X, 'double_divide'( inverse( X ), 'double_divide'(
% 1.46/1.83 inverse( Y ), Y ) ) ) ] )
% 1.46/1.83 , clause( 16, [ =( multiply( T, multiply( inverse( X ), inverse( T ) ) ),
% 1.46/1.83 inverse( X ) ) ] )
% 1.46/1.83 , 0, clause( 928, [ =( Y, 'double_divide'( multiply( X, multiply( inverse(
% 1.46/1.83 Y ), Z ) ), 'double_divide'( Z, X ) ) ) ] )
% 1.46/1.83 , 0, 3, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, T ), :=( T, Y )] )
% 1.46/1.83 , substitution( 1, [ :=( X, Y ), :=( Y, X ), :=( Z, inverse( Y ) )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 931, [ =( 'double_divide'( inverse( X ), 'double_divide'( inverse(
% 1.46/1.83 Y ), Y ) ), X ) ] )
% 1.46/1.83 , clause( 929, [ =( X, 'double_divide'( inverse( X ), 'double_divide'(
% 1.46/1.83 inverse( Y ), Y ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 35, [ =( 'double_divide'( inverse( Y ), 'double_divide'( inverse( X
% 1.46/1.83 ), X ) ), Y ) ] )
% 1.46/1.83 , clause( 931, [ =( 'double_divide'( inverse( X ), 'double_divide'( inverse(
% 1.46/1.83 Y ), Y ) ), X ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 934, [ =( inverse( Y ), multiply( 'double_divide'( inverse( X ), X
% 1.46/1.83 ), inverse( Y ) ) ) ] )
% 1.46/1.83 , clause( 33, [ =( multiply( 'double_divide'( inverse( X ), X ), inverse( Y
% 1.46/1.83 ) ), inverse( Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 938, [ =( inverse( 'double_divide'( X, Y ) ), multiply(
% 1.46/1.83 'double_divide'( inverse( Z ), Z ), multiply( Y, X ) ) ) ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 934, [ =( inverse( Y ), multiply( 'double_divide'( inverse( X
% 1.46/1.83 ), X ), inverse( Y ) ) ) ] )
% 1.46/1.83 , 0, 10, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [
% 1.46/1.83 :=( X, Z ), :=( Y, 'double_divide'( X, Y ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 940, [ =( multiply( Y, X ), multiply( 'double_divide'( inverse( Z )
% 1.46/1.83 , Z ), multiply( Y, X ) ) ) ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 938, [ =( inverse( 'double_divide'( X, Y ) ), multiply(
% 1.46/1.83 'double_divide'( inverse( Z ), Z ), multiply( Y, X ) ) ) ] )
% 1.46/1.83 , 0, 1, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [
% 1.46/1.83 :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 942, [ =( multiply( 'double_divide'( inverse( Z ), Z ), multiply( X
% 1.46/1.83 , Y ) ), multiply( X, Y ) ) ] )
% 1.46/1.83 , clause( 940, [ =( multiply( Y, X ), multiply( 'double_divide'( inverse( Z
% 1.46/1.83 ), Z ), multiply( Y, X ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 44, [ =( multiply( 'double_divide'( inverse( Z ), Z ), multiply( Y
% 1.46/1.83 , X ) ), multiply( Y, X ) ) ] )
% 1.46/1.83 , clause( 942, [ =( multiply( 'double_divide'( inverse( Z ), Z ), multiply(
% 1.46/1.83 X, Y ) ), multiply( X, Y ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 945, [ =( multiply( Y, Z ), multiply( 'double_divide'( inverse( X )
% 1.46/1.83 , X ), multiply( Y, Z ) ) ) ] )
% 1.46/1.83 , clause( 44, [ =( multiply( 'double_divide'( inverse( Z ), Z ), multiply(
% 1.46/1.83 Y, X ) ), multiply( Y, X ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 950, [ =( multiply( inverse( X ), inverse( 'double_divide'( inverse(
% 1.46/1.83 Y ), Y ) ) ), inverse( X ) ) ] )
% 1.46/1.83 , clause( 16, [ =( multiply( T, multiply( inverse( X ), inverse( T ) ) ),
% 1.46/1.83 inverse( X ) ) ] )
% 1.46/1.83 , 0, clause( 945, [ =( multiply( Y, Z ), multiply( 'double_divide'( inverse(
% 1.46/1.83 X ), X ), multiply( Y, Z ) ) ) ] )
% 1.46/1.83 , 0, 9, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, T ), :=( T,
% 1.46/1.83 'double_divide'( inverse( Y ), Y ) )] ), substitution( 1, [ :=( X, Y ),
% 1.46/1.83 :=( Y, inverse( X ) ), :=( Z, inverse( 'double_divide'( inverse( Y ), Y )
% 1.46/1.83 ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 952, [ =( multiply( inverse( X ), multiply( Y, inverse( Y ) ) ),
% 1.46/1.83 inverse( X ) ) ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 950, [ =( multiply( inverse( X ), inverse( 'double_divide'(
% 1.46/1.83 inverse( Y ), Y ) ) ), inverse( X ) ) ] )
% 1.46/1.83 , 0, 4, substitution( 0, [ :=( X, Y ), :=( Y, inverse( Y ) )] ),
% 1.46/1.83 substitution( 1, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 46, [ =( multiply( inverse( Y ), multiply( X, inverse( X ) ) ),
% 1.46/1.83 inverse( Y ) ) ] )
% 1.46/1.83 , clause( 952, [ =( multiply( inverse( X ), multiply( Y, inverse( Y ) ) ),
% 1.46/1.83 inverse( X ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 955, [ =( 'double_divide'( T, Z ), 'double_divide'( inverse( X ),
% 1.46/1.83 'double_divide'( multiply( inverse( X ), Y ), 'double_divide'( Y,
% 1.46/1.83 multiply( Z, T ) ) ) ) ) ] )
% 1.46/1.83 , clause( 12, [ =( 'double_divide'( inverse( Z ), 'double_divide'( multiply(
% 1.46/1.83 inverse( Z ), T ), 'double_divide'( T, multiply( Y, X ) ) ) ),
% 1.46/1.83 'double_divide'( X, Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 958, [ =( 'double_divide'( multiply( X, inverse( X ) ), inverse( Y
% 1.46/1.83 ) ), 'double_divide'( inverse( Z ), 'double_divide'( multiply( inverse(
% 1.46/1.83 Z ), T ), 'double_divide'( T, inverse( Y ) ) ) ) ) ] )
% 1.46/1.83 , clause( 46, [ =( multiply( inverse( Y ), multiply( X, inverse( X ) ) ),
% 1.46/1.83 inverse( Y ) ) ] )
% 1.46/1.83 , 0, clause( 955, [ =( 'double_divide'( T, Z ), 'double_divide'( inverse( X
% 1.46/1.83 ), 'double_divide'( multiply( inverse( X ), Y ), 'double_divide'( Y,
% 1.46/1.83 multiply( Z, T ) ) ) ) ) ] )
% 1.46/1.83 , 0, 18, substitution( 0, [ :=( X, X ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, Z ), :=( Y, T ), :=( Z, inverse( Y ) ), :=( T, multiply( X,
% 1.46/1.83 inverse( X ) ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 959, [ =( 'double_divide'( multiply( X, inverse( X ) ), inverse( Y
% 1.46/1.83 ) ), Y ) ] )
% 1.46/1.83 , clause( 8, [ =( 'double_divide'( inverse( Z ), 'double_divide'( multiply(
% 1.46/1.83 inverse( Z ), X ), 'double_divide'( X, inverse( Y ) ) ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 958, [ =( 'double_divide'( multiply( X, inverse( X ) ),
% 1.46/1.83 inverse( Y ) ), 'double_divide'( inverse( Z ), 'double_divide'( multiply(
% 1.46/1.83 inverse( Z ), T ), 'double_divide'( T, inverse( Y ) ) ) ) ) ] )
% 1.46/1.83 , 0, 8, substitution( 0, [ :=( X, T ), :=( Y, Y ), :=( Z, Z )] ),
% 1.46/1.83 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 56, [ =( 'double_divide'( multiply( Y, inverse( Y ) ), inverse( X )
% 1.46/1.83 ), X ) ] )
% 1.46/1.83 , clause( 959, [ =( 'double_divide'( multiply( X, inverse( X ) ), inverse(
% 1.46/1.83 Y ) ), Y ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 962, [ =( inverse( Z ), multiply( 'double_divide'( multiply(
% 1.46/1.83 inverse( X ), Y ), 'double_divide'( Y, inverse( Z ) ) ), inverse( X ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , clause( 7, [ =( multiply( 'double_divide'( multiply( inverse( Z ), X ),
% 1.46/1.83 'double_divide'( X, inverse( Y ) ) ), inverse( Z ) ), inverse( Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 964, [ =( inverse( X ), multiply( 'double_divide'( inverse( Y ),
% 1.46/1.83 'double_divide'( multiply( Z, inverse( Z ) ), inverse( X ) ) ), inverse(
% 1.46/1.83 Y ) ) ) ] )
% 1.46/1.83 , clause( 46, [ =( multiply( inverse( Y ), multiply( X, inverse( X ) ) ),
% 1.46/1.83 inverse( Y ) ) ] )
% 1.46/1.83 , 0, clause( 962, [ =( inverse( Z ), multiply( 'double_divide'( multiply(
% 1.46/1.83 inverse( X ), Y ), 'double_divide'( Y, inverse( Z ) ) ), inverse( X ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, 5, substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, Y ), :=( Y, multiply( Z, inverse( Z ) ) ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 965, [ =( inverse( X ), multiply( 'double_divide'( inverse( Y ), X
% 1.46/1.83 ), inverse( Y ) ) ) ] )
% 1.46/1.83 , clause( 56, [ =( 'double_divide'( multiply( Y, inverse( Y ) ), inverse( X
% 1.46/1.83 ) ), X ) ] )
% 1.46/1.83 , 0, clause( 964, [ =( inverse( X ), multiply( 'double_divide'( inverse( Y
% 1.46/1.83 ), 'double_divide'( multiply( Z, inverse( Z ) ), inverse( X ) ) ),
% 1.46/1.83 inverse( Y ) ) ) ] )
% 1.46/1.83 , 0, 7, substitution( 0, [ :=( X, X ), :=( Y, Z )] ), substitution( 1, [
% 1.46/1.83 :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 966, [ =( multiply( 'double_divide'( inverse( Y ), X ), inverse( Y
% 1.46/1.83 ) ), inverse( X ) ) ] )
% 1.46/1.83 , clause( 965, [ =( inverse( X ), multiply( 'double_divide'( inverse( Y ),
% 1.46/1.83 X ), inverse( Y ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 60, [ =( multiply( 'double_divide'( inverse( X ), Z ), inverse( X )
% 1.46/1.83 ), inverse( Z ) ) ] )
% 1.46/1.83 , clause( 966, [ =( multiply( 'double_divide'( inverse( Y ), X ), inverse(
% 1.46/1.83 Y ) ), inverse( X ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Z ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 968, [ =( Z, 'double_divide'( inverse( X ), 'double_divide'(
% 1.46/1.83 multiply( inverse( X ), Y ), 'double_divide'( Y, inverse( Z ) ) ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 8, [ =( 'double_divide'( inverse( Z ), 'double_divide'( multiply(
% 1.46/1.83 inverse( Z ), X ), 'double_divide'( X, inverse( Y ) ) ) ), Y ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 970, [ =( X, 'double_divide'( inverse( Y ), 'double_divide'(
% 1.46/1.83 inverse( Y ), 'double_divide'( multiply( Z, inverse( Z ) ), inverse( X )
% 1.46/1.83 ) ) ) ) ] )
% 1.46/1.83 , clause( 46, [ =( multiply( inverse( Y ), multiply( X, inverse( X ) ) ),
% 1.46/1.83 inverse( Y ) ) ] )
% 1.46/1.83 , 0, clause( 968, [ =( Z, 'double_divide'( inverse( X ), 'double_divide'(
% 1.46/1.83 multiply( inverse( X ), Y ), 'double_divide'( Y, inverse( Z ) ) ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, 6, substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, Y ), :=( Y, multiply( Z, inverse( Z ) ) ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 971, [ =( X, 'double_divide'( inverse( Y ), 'double_divide'(
% 1.46/1.83 inverse( Y ), X ) ) ) ] )
% 1.46/1.83 , clause( 56, [ =( 'double_divide'( multiply( Y, inverse( Y ) ), inverse( X
% 1.46/1.83 ) ), X ) ] )
% 1.46/1.83 , 0, clause( 970, [ =( X, 'double_divide'( inverse( Y ), 'double_divide'(
% 1.46/1.83 inverse( Y ), 'double_divide'( multiply( Z, inverse( Z ) ), inverse( X )
% 1.46/1.83 ) ) ) ) ] )
% 1.46/1.83 , 0, 8, substitution( 0, [ :=( X, X ), :=( Y, Z )] ), substitution( 1, [
% 1.46/1.83 :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 972, [ =( 'double_divide'( inverse( Y ), 'double_divide'( inverse(
% 1.46/1.83 Y ), X ) ), X ) ] )
% 1.46/1.83 , clause( 971, [ =( X, 'double_divide'( inverse( Y ), 'double_divide'(
% 1.46/1.83 inverse( Y ), X ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 63, [ =( 'double_divide'( inverse( X ), 'double_divide'( inverse( X
% 1.46/1.83 ), Z ) ), Z ) ] )
% 1.46/1.83 , clause( 972, [ =( 'double_divide'( inverse( Y ), 'double_divide'( inverse(
% 1.46/1.83 Y ), X ) ), X ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Z ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 974, [ =( inverse( X ), multiply( inverse( X ), multiply( Y,
% 1.46/1.83 inverse( Y ) ) ) ) ] )
% 1.46/1.83 , clause( 46, [ =( multiply( inverse( Y ), multiply( X, inverse( X ) ) ),
% 1.46/1.83 inverse( Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 978, [ =( inverse( 'double_divide'( X, Y ) ), multiply( multiply( Y
% 1.46/1.83 , X ), multiply( Z, inverse( Z ) ) ) ) ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 974, [ =( inverse( X ), multiply( inverse( X ), multiply( Y,
% 1.46/1.83 inverse( Y ) ) ) ) ] )
% 1.46/1.83 , 0, 6, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [
% 1.46/1.83 :=( X, 'double_divide'( X, Y ) ), :=( Y, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 980, [ =( multiply( Y, X ), multiply( multiply( Y, X ), multiply( Z
% 1.46/1.83 , inverse( Z ) ) ) ) ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 978, [ =( inverse( 'double_divide'( X, Y ) ), multiply(
% 1.46/1.83 multiply( Y, X ), multiply( Z, inverse( Z ) ) ) ) ] )
% 1.46/1.83 , 0, 1, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [
% 1.46/1.83 :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 982, [ =( multiply( multiply( X, Y ), multiply( Z, inverse( Z ) ) )
% 1.46/1.83 , multiply( X, Y ) ) ] )
% 1.46/1.83 , clause( 980, [ =( multiply( Y, X ), multiply( multiply( Y, X ), multiply(
% 1.46/1.83 Z, inverse( Z ) ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 68, [ =( multiply( multiply( Y, X ), multiply( Z, inverse( Z ) ) )
% 1.46/1.83 , multiply( Y, X ) ) ] )
% 1.46/1.83 , clause( 982, [ =( multiply( multiply( X, Y ), multiply( Z, inverse( Z ) )
% 1.46/1.83 ), multiply( X, Y ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 986, [ =( T, 'double_divide'( multiply( X, Y ), 'double_divide'(
% 1.46/1.83 multiply( multiply( X, Y ), Z ), 'double_divide'( Z, inverse( T ) ) ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , clause( 11, [ =( 'double_divide'( multiply( Y, X ), 'double_divide'(
% 1.46/1.83 multiply( multiply( Y, X ), Z ), 'double_divide'( Z, inverse( T ) ) ) ),
% 1.46/1.83 T ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z ), :=( T, T )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 988, [ =( X, 'double_divide'( multiply( Y, Z ), 'double_divide'(
% 1.46/1.83 multiply( multiply( Y, Z ), multiply( T, inverse( T ) ) ), X ) ) ) ] )
% 1.46/1.83 , clause( 56, [ =( 'double_divide'( multiply( Y, inverse( Y ) ), inverse( X
% 1.46/1.83 ) ), X ) ] )
% 1.46/1.83 , 0, clause( 986, [ =( T, 'double_divide'( multiply( X, Y ),
% 1.46/1.83 'double_divide'( multiply( multiply( X, Y ), Z ), 'double_divide'( Z,
% 1.46/1.83 inverse( T ) ) ) ) ) ] )
% 1.46/1.83 , 0, 15, substitution( 0, [ :=( X, X ), :=( Y, T )] ), substitution( 1, [
% 1.46/1.83 :=( X, Y ), :=( Y, Z ), :=( Z, multiply( T, inverse( T ) ) ), :=( T, X )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 989, [ =( X, 'double_divide'( multiply( Y, Z ), 'double_divide'(
% 1.46/1.83 multiply( Y, Z ), X ) ) ) ] )
% 1.46/1.83 , clause( 68, [ =( multiply( multiply( Y, X ), multiply( Z, inverse( Z ) )
% 1.46/1.83 ), multiply( Y, X ) ) ] )
% 1.46/1.83 , 0, clause( 988, [ =( X, 'double_divide'( multiply( Y, Z ),
% 1.46/1.83 'double_divide'( multiply( multiply( Y, Z ), multiply( T, inverse( T ) )
% 1.46/1.83 ), X ) ) ) ] )
% 1.46/1.83 , 0, 7, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, T )] ),
% 1.46/1.83 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 990, [ =( 'double_divide'( multiply( Y, Z ), 'double_divide'(
% 1.46/1.83 multiply( Y, Z ), X ) ), X ) ] )
% 1.46/1.83 , clause( 989, [ =( X, 'double_divide'( multiply( Y, Z ), 'double_divide'(
% 1.46/1.83 multiply( Y, Z ), X ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 74, [ =( 'double_divide'( multiply( Z, T ), 'double_divide'(
% 1.46/1.83 multiply( Z, T ), Y ) ), Y ) ] )
% 1.46/1.83 , clause( 990, [ =( 'double_divide'( multiply( Y, Z ), 'double_divide'(
% 1.46/1.83 multiply( Y, Z ), X ) ), X ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 992, [ =( Y, 'double_divide'( inverse( X ), 'double_divide'(
% 1.46/1.83 inverse( X ), Y ) ) ) ] )
% 1.46/1.83 , clause( 63, [ =( 'double_divide'( inverse( X ), 'double_divide'( inverse(
% 1.46/1.83 X ), Z ) ), Z ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 995, [ =( 'double_divide'( inverse( X ), X ), 'double_divide'(
% 1.46/1.83 inverse( Y ), Y ) ) ] )
% 1.46/1.83 , clause( 35, [ =( 'double_divide'( inverse( Y ), 'double_divide'( inverse(
% 1.46/1.83 X ), X ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 992, [ =( Y, 'double_divide'( inverse( X ), 'double_divide'(
% 1.46/1.83 inverse( X ), Y ) ) ) ] )
% 1.46/1.83 , 0, 8, substitution( 0, [ :=( X, X ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, Y ), :=( Y, 'double_divide'( inverse( X ), X ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 79, [ =( 'double_divide'( inverse( X ), X ), 'double_divide'(
% 1.46/1.83 inverse( Y ), Y ) ) ] )
% 1.46/1.83 , clause( 995, [ =( 'double_divide'( inverse( X ), X ), 'double_divide'(
% 1.46/1.83 inverse( Y ), Y ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 997, [ =( Z, 'double_divide'( multiply( X, Y ), 'double_divide'(
% 1.46/1.83 multiply( X, Y ), Z ) ) ) ] )
% 1.46/1.83 , clause( 74, [ =( 'double_divide'( multiply( Z, T ), 'double_divide'(
% 1.46/1.83 multiply( Z, T ), Y ) ), Y ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 998, [ =( inverse( X ), 'double_divide'( multiply( Y, inverse( Y )
% 1.46/1.83 ), X ) ) ] )
% 1.46/1.83 , clause( 56, [ =( 'double_divide'( multiply( Y, inverse( Y ) ), inverse( X
% 1.46/1.83 ) ), X ) ] )
% 1.46/1.83 , 0, clause( 997, [ =( Z, 'double_divide'( multiply( X, Y ),
% 1.46/1.83 'double_divide'( multiply( X, Y ), Z ) ) ) ] )
% 1.46/1.83 , 0, 8, substitution( 0, [ :=( X, X ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, Y ), :=( Y, inverse( Y ) ), :=( Z, inverse( X ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 999, [ =( 'double_divide'( multiply( Y, inverse( Y ) ), X ),
% 1.46/1.83 inverse( X ) ) ] )
% 1.46/1.83 , clause( 998, [ =( inverse( X ), 'double_divide'( multiply( Y, inverse( Y
% 1.46/1.83 ) ), X ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 103, [ =( 'double_divide'( multiply( X, inverse( X ) ), Y ),
% 1.46/1.83 inverse( Y ) ) ] )
% 1.46/1.83 , clause( 999, [ =( 'double_divide'( multiply( Y, inverse( Y ) ), X ),
% 1.46/1.83 inverse( X ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1001, [ =( Z, 'double_divide'( multiply( X, Y ), 'double_divide'(
% 1.46/1.83 multiply( X, Y ), Z ) ) ) ] )
% 1.46/1.83 , clause( 74, [ =( 'double_divide'( multiply( Z, T ), 'double_divide'(
% 1.46/1.83 multiply( Z, T ), Y ) ), Y ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1004, [ =( 'double_divide'( X, Y ), 'double_divide'( multiply( Y,
% 1.46/1.83 multiply( inverse( Z ), X ) ), Z ) ) ] )
% 1.46/1.83 , clause( 3, [ =( 'double_divide'( multiply( Z, multiply( inverse( Y ), X )
% 1.46/1.83 ), 'double_divide'( X, Z ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 1001, [ =( Z, 'double_divide'( multiply( X, Y ),
% 1.46/1.83 'double_divide'( multiply( X, Y ), Z ) ) ) ] )
% 1.46/1.83 , 0, 11, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, Y )] ),
% 1.46/1.83 substitution( 1, [ :=( X, Y ), :=( Y, multiply( inverse( Z ), X ) ), :=(
% 1.46/1.83 Z, 'double_divide'( X, Y ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1005, [ =( 'double_divide'( multiply( Y, multiply( inverse( Z ), X
% 1.46/1.83 ) ), Z ), 'double_divide'( X, Y ) ) ] )
% 1.46/1.83 , clause( 1004, [ =( 'double_divide'( X, Y ), 'double_divide'( multiply( Y
% 1.46/1.83 , multiply( inverse( Z ), X ) ), Z ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 111, [ =( 'double_divide'( multiply( X, multiply( inverse( Y ), Z )
% 1.46/1.83 ), Y ), 'double_divide'( Z, X ) ) ] )
% 1.46/1.83 , clause( 1005, [ =( 'double_divide'( multiply( Y, multiply( inverse( Z ),
% 1.46/1.83 X ) ), Z ), 'double_divide'( X, Y ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Z ), :=( Y, X ), :=( Z, Y )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1006, [ =( inverse( Y ), 'double_divide'( multiply( X, inverse( X )
% 1.46/1.83 ), Y ) ) ] )
% 1.46/1.83 , clause( 103, [ =( 'double_divide'( multiply( X, inverse( X ) ), Y ),
% 1.46/1.83 inverse( Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1009, [ =( inverse( 'double_divide'( multiply( X, inverse( X ) ), Y
% 1.46/1.83 ) ), Y ) ] )
% 1.46/1.83 , clause( 74, [ =( 'double_divide'( multiply( Z, T ), 'double_divide'(
% 1.46/1.83 multiply( Z, T ), Y ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 1006, [ =( inverse( Y ), 'double_divide'( multiply( X, inverse(
% 1.46/1.83 X ) ), Y ) ) ] )
% 1.46/1.83 , 0, 8, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X ), :=( T,
% 1.46/1.83 inverse( X ) )] ), substitution( 1, [ :=( X, X ), :=( Y, 'double_divide'(
% 1.46/1.83 multiply( X, inverse( X ) ), Y ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1010, [ =( multiply( Y, multiply( X, inverse( X ) ) ), Y ) ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 1009, [ =( inverse( 'double_divide'( multiply( X, inverse( X )
% 1.46/1.83 ), Y ) ), Y ) ] )
% 1.46/1.83 , 0, 1, substitution( 0, [ :=( X, Y ), :=( Y, multiply( X, inverse( X ) ) )] )
% 1.46/1.83 , substitution( 1, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 112, [ =( multiply( Y, multiply( X, inverse( X ) ) ), Y ) ] )
% 1.46/1.83 , clause( 1010, [ =( multiply( Y, multiply( X, inverse( X ) ) ), Y ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1012, [ =( inverse( Y ), 'double_divide'( multiply( X, inverse( X )
% 1.46/1.83 ), Y ) ) ] )
% 1.46/1.83 , clause( 103, [ =( 'double_divide'( multiply( X, inverse( X ) ), Y ),
% 1.46/1.83 inverse( Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1014, [ =( inverse( inverse( X ) ), X ) ] )
% 1.46/1.83 , clause( 56, [ =( 'double_divide'( multiply( Y, inverse( Y ) ), inverse( X
% 1.46/1.83 ) ), X ) ] )
% 1.46/1.83 , 0, clause( 1012, [ =( inverse( Y ), 'double_divide'( multiply( X, inverse(
% 1.46/1.83 X ) ), Y ) ) ] )
% 1.46/1.83 , 0, 4, substitution( 0, [ :=( X, X ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, Y ), :=( Y, inverse( X ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 113, [ =( inverse( inverse( Y ) ), Y ) ] )
% 1.46/1.83 , clause( 1014, [ =( inverse( inverse( X ) ), X ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1017, [ =( 'double_divide'( T, Z ), 'double_divide'( inverse( X ),
% 1.46/1.83 'double_divide'( multiply( inverse( X ), Y ), 'double_divide'( Y,
% 1.46/1.83 multiply( Z, T ) ) ) ) ) ] )
% 1.46/1.83 , clause( 12, [ =( 'double_divide'( inverse( Z ), 'double_divide'( multiply(
% 1.46/1.83 inverse( Z ), T ), 'double_divide'( T, multiply( Y, X ) ) ) ),
% 1.46/1.83 'double_divide'( X, Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1022, [ =( 'double_divide'( X, Y ), 'double_divide'( inverse( Z ),
% 1.46/1.83 'double_divide'( multiply( inverse( Z ), multiply( T, inverse( T ) ) ),
% 1.46/1.83 inverse( multiply( Y, X ) ) ) ) ) ] )
% 1.46/1.83 , clause( 103, [ =( 'double_divide'( multiply( X, inverse( X ) ), Y ),
% 1.46/1.83 inverse( Y ) ) ] )
% 1.46/1.83 , 0, clause( 1017, [ =( 'double_divide'( T, Z ), 'double_divide'( inverse(
% 1.46/1.83 X ), 'double_divide'( multiply( inverse( X ), Y ), 'double_divide'( Y,
% 1.46/1.83 multiply( Z, T ) ) ) ) ) ] )
% 1.46/1.83 , 0, 15, substitution( 0, [ :=( X, T ), :=( Y, multiply( Y, X ) )] ),
% 1.46/1.83 substitution( 1, [ :=( X, Z ), :=( Y, multiply( T, inverse( T ) ) ), :=(
% 1.46/1.83 Z, Y ), :=( T, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1023, [ =( 'double_divide'( X, Y ), 'double_divide'( inverse( Z ),
% 1.46/1.83 'double_divide'( inverse( Z ), inverse( multiply( Y, X ) ) ) ) ) ] )
% 1.46/1.83 , clause( 112, [ =( multiply( Y, multiply( X, inverse( X ) ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 1022, [ =( 'double_divide'( X, Y ), 'double_divide'( inverse(
% 1.46/1.83 Z ), 'double_divide'( multiply( inverse( Z ), multiply( T, inverse( T ) )
% 1.46/1.83 ), inverse( multiply( Y, X ) ) ) ) ) ] )
% 1.46/1.83 , 0, 8, substitution( 0, [ :=( X, T ), :=( Y, inverse( Z ) )] ),
% 1.46/1.83 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1024, [ =( 'double_divide'( X, Y ), inverse( multiply( Y, X ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 63, [ =( 'double_divide'( inverse( X ), 'double_divide'( inverse(
% 1.46/1.83 X ), Z ) ), Z ) ] )
% 1.46/1.83 , 0, clause( 1023, [ =( 'double_divide'( X, Y ), 'double_divide'( inverse(
% 1.46/1.83 Z ), 'double_divide'( inverse( Z ), inverse( multiply( Y, X ) ) ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, 4, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, inverse( multiply(
% 1.46/1.83 Y, X ) ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1025, [ =( inverse( multiply( Y, X ) ), 'double_divide'( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 1024, [ =( 'double_divide'( X, Y ), inverse( multiply( Y, X ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 119, [ =( inverse( multiply( Y, Z ) ), 'double_divide'( Z, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 1025, [ =( inverse( multiply( Y, X ) ), 'double_divide'( X, Y ) )
% 1.46/1.83 ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1027, [ =( inverse( Y ), multiply( 'double_divide'( inverse( X ), Y
% 1.46/1.83 ), inverse( X ) ) ) ] )
% 1.46/1.83 , clause( 60, [ =( multiply( 'double_divide'( inverse( X ), Z ), inverse( X
% 1.46/1.83 ) ), inverse( Z ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1030, [ =( inverse( X ), multiply( 'double_divide'( inverse(
% 1.46/1.83 inverse( Y ) ), X ), Y ) ) ] )
% 1.46/1.83 , clause( 113, [ =( inverse( inverse( Y ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 1027, [ =( inverse( Y ), multiply( 'double_divide'( inverse( X
% 1.46/1.83 ), Y ), inverse( X ) ) ) ] )
% 1.46/1.83 , 0, 9, substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, inverse( Y ) ), :=( Y, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1031, [ =( inverse( X ), multiply( 'double_divide'( Y, X ), Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 113, [ =( inverse( inverse( Y ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 1030, [ =( inverse( X ), multiply( 'double_divide'( inverse(
% 1.46/1.83 inverse( Y ) ), X ), Y ) ) ] )
% 1.46/1.83 , 0, 5, substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1034, [ =( multiply( 'double_divide'( Y, X ), Y ), inverse( X ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 1031, [ =( inverse( X ), multiply( 'double_divide'( Y, X ), Y ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 133, [ =( multiply( 'double_divide'( X, Y ), X ), inverse( Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 1034, [ =( multiply( 'double_divide'( Y, X ), Y ), inverse( X ) )
% 1.46/1.83 ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1037, [ =( inverse( Z ), multiply( 'double_divide'( multiply(
% 1.46/1.83 inverse( X ), multiply( inverse( Y ), inverse( inverse( Z ) ) ) ), Y ),
% 1.46/1.83 inverse( X ) ) ) ] )
% 1.46/1.83 , clause( 19, [ =( multiply( 'double_divide'( multiply( inverse( Z ),
% 1.46/1.83 multiply( inverse( X ), inverse( inverse( Y ) ) ) ), X ), inverse( Z ) )
% 1.46/1.83 , inverse( Y ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1043, [ =( inverse( X ), multiply( 'double_divide'( multiply(
% 1.46/1.83 inverse( inverse( Y ) ), multiply( inverse( Z ), inverse( inverse( X ) )
% 1.46/1.83 ) ), Z ), Y ) ) ] )
% 1.46/1.83 , clause( 113, [ =( inverse( inverse( Y ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 1037, [ =( inverse( Z ), multiply( 'double_divide'( multiply(
% 1.46/1.83 inverse( X ), multiply( inverse( Y ), inverse( inverse( Z ) ) ) ), Y ),
% 1.46/1.83 inverse( X ) ) ) ] )
% 1.46/1.83 , 0, 16, substitution( 0, [ :=( X, T ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, inverse( Y ) ), :=( Y, Z ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1053, [ =( inverse( X ), multiply( 'double_divide'( inverse(
% 1.46/1.83 inverse( X ) ), inverse( inverse( Y ) ) ), Y ) ) ] )
% 1.46/1.83 , clause( 111, [ =( 'double_divide'( multiply( X, multiply( inverse( Y ), Z
% 1.46/1.83 ) ), Y ), 'double_divide'( Z, X ) ) ] )
% 1.46/1.83 , 0, clause( 1043, [ =( inverse( X ), multiply( 'double_divide'( multiply(
% 1.46/1.83 inverse( inverse( Y ) ), multiply( inverse( Z ), inverse( inverse( X ) )
% 1.46/1.83 ) ), Z ), Y ) ) ] )
% 1.46/1.83 , 0, 4, substitution( 0, [ :=( X, inverse( inverse( Y ) ) ), :=( Y, Z ),
% 1.46/1.83 :=( Z, inverse( inverse( X ) ) )] ), substitution( 1, [ :=( X, X ), :=( Y
% 1.46/1.83 , Y ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1055, [ =( inverse( X ), multiply( 'double_divide'( inverse(
% 1.46/1.83 inverse( X ) ), Y ), Y ) ) ] )
% 1.46/1.83 , clause( 113, [ =( inverse( inverse( Y ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 1053, [ =( inverse( X ), multiply( 'double_divide'( inverse(
% 1.46/1.83 inverse( X ) ), inverse( inverse( Y ) ) ), Y ) ) ] )
% 1.46/1.83 , 0, 8, substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1056, [ =( inverse( X ), multiply( 'double_divide'( X, Y ), Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 113, [ =( inverse( inverse( Y ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 1055, [ =( inverse( X ), multiply( 'double_divide'( inverse(
% 1.46/1.83 inverse( X ) ), Y ), Y ) ) ] )
% 1.46/1.83 , 0, 5, substitution( 0, [ :=( X, Z ), :=( Y, X )] ), substitution( 1, [
% 1.46/1.83 :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1058, [ =( multiply( 'double_divide'( X, Y ), Y ), inverse( X ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 1056, [ =( inverse( X ), multiply( 'double_divide'( X, Y ), Y ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 136, [ =( multiply( 'double_divide'( Z, X ), X ), inverse( Z ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 1058, [ =( multiply( 'double_divide'( X, Y ), Y ), inverse( X ) )
% 1.46/1.83 ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Z ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1061, [ =( inverse( Y ), multiply( X, multiply( inverse( Y ),
% 1.46/1.83 inverse( X ) ) ) ) ] )
% 1.46/1.83 , clause( 16, [ =( multiply( T, multiply( inverse( X ), inverse( T ) ) ),
% 1.46/1.83 inverse( X ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, X )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1063, [ =( inverse( inverse( X ) ), multiply( Y, multiply( X,
% 1.46/1.83 inverse( Y ) ) ) ) ] )
% 1.46/1.83 , clause( 113, [ =( inverse( inverse( Y ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 1061, [ =( inverse( Y ), multiply( X, multiply( inverse( Y ),
% 1.46/1.83 inverse( X ) ) ) ) ] )
% 1.46/1.83 , 0, 7, substitution( 0, [ :=( X, Z ), :=( Y, X )] ), substitution( 1, [
% 1.46/1.83 :=( X, Y ), :=( Y, inverse( X ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1065, [ =( X, multiply( Y, multiply( X, inverse( Y ) ) ) ) ] )
% 1.46/1.83 , clause( 113, [ =( inverse( inverse( Y ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 1063, [ =( inverse( inverse( X ) ), multiply( Y, multiply( X,
% 1.46/1.83 inverse( Y ) ) ) ) ] )
% 1.46/1.83 , 0, 1, substitution( 0, [ :=( X, Z ), :=( Y, X )] ), substitution( 1, [
% 1.46/1.83 :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1067, [ =( multiply( Y, multiply( X, inverse( Y ) ) ), X ) ] )
% 1.46/1.83 , clause( 1065, [ =( X, multiply( Y, multiply( X, inverse( Y ) ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 147, [ =( multiply( Y, multiply( X, inverse( Y ) ) ), X ) ] )
% 1.46/1.83 , clause( 1067, [ =( multiply( Y, multiply( X, inverse( Y ) ) ), X ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1071, [ =( 'double_divide'( Z, Y ), 'double_divide'( multiply( X,
% 1.46/1.83 multiply( multiply( Y, Z ), multiply( inverse( T ), inverse( X ) ) ) ), T
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , clause( 20, [ =( 'double_divide'( multiply( Y, multiply( multiply( Z, T )
% 1.46/1.83 , multiply( inverse( X ), inverse( Y ) ) ) ), X ), 'double_divide'( T, Z
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, T ), :=( Y, X ), :=( Z, Y ), :=( T, Z )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1074, [ =( 'double_divide'( X, 'double_divide'( Y, X ) ),
% 1.46/1.83 'double_divide'( multiply( Z, multiply( inverse( Y ), multiply( inverse(
% 1.46/1.83 T ), inverse( Z ) ) ) ), T ) ) ] )
% 1.46/1.83 , clause( 136, [ =( multiply( 'double_divide'( Z, X ), X ), inverse( Z ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, clause( 1071, [ =( 'double_divide'( Z, Y ), 'double_divide'( multiply(
% 1.46/1.83 X, multiply( multiply( Y, Z ), multiply( inverse( T ), inverse( X ) ) ) )
% 1.46/1.83 , T ) ) ] )
% 1.46/1.83 , 0, 10, substitution( 0, [ :=( X, X ), :=( Y, U ), :=( Z, Y )] ),
% 1.46/1.83 substitution( 1, [ :=( X, Z ), :=( Y, 'double_divide'( Y, X ) ), :=( Z, X
% 1.46/1.83 ), :=( T, T )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1075, [ =( 'double_divide'( X, 'double_divide'( Y, X ) ), Y ) ] )
% 1.46/1.83 , clause( 24, [ =( 'double_divide'( multiply( Y, multiply( inverse( Z ),
% 1.46/1.83 multiply( inverse( X ), inverse( Y ) ) ) ), X ), Z ) ] )
% 1.46/1.83 , 0, clause( 1074, [ =( 'double_divide'( X, 'double_divide'( Y, X ) ),
% 1.46/1.83 'double_divide'( multiply( Z, multiply( inverse( Y ), multiply( inverse(
% 1.46/1.83 T ), inverse( Z ) ) ) ), T ) ) ] )
% 1.46/1.83 , 0, 6, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, Y )] ),
% 1.46/1.83 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 191, [ =( 'double_divide'( Y, 'double_divide'( X, Y ) ), X ) ] )
% 1.46/1.83 , clause( 1075, [ =( 'double_divide'( X, 'double_divide'( Y, X ) ), Y ) ]
% 1.46/1.83 )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1078, [ =( inverse( X ), multiply( 'double_divide'( X, Y ), Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 136, [ =( multiply( 'double_divide'( Z, X ), X ), inverse( Z ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1081, [ =( inverse( multiply( X, multiply( multiply( Y, Z ),
% 1.46/1.83 multiply( inverse( T ), inverse( X ) ) ) ) ), multiply( 'double_divide'(
% 1.46/1.83 Z, Y ), T ) ) ] )
% 1.46/1.83 , clause( 20, [ =( 'double_divide'( multiply( Y, multiply( multiply( Z, T )
% 1.46/1.83 , multiply( inverse( X ), inverse( Y ) ) ) ), X ), 'double_divide'( T, Z
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , 0, clause( 1078, [ =( inverse( X ), multiply( 'double_divide'( X, Y ), Y
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , 0, 14, substitution( 0, [ :=( X, T ), :=( Y, X ), :=( Z, Y ), :=( T, Z )] )
% 1.46/1.83 , substitution( 1, [ :=( X, multiply( X, multiply( multiply( Y, Z ),
% 1.46/1.83 multiply( inverse( T ), inverse( X ) ) ) ) ), :=( Y, T )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1082, [ =( 'double_divide'( multiply( multiply( Y, Z ), multiply(
% 1.46/1.83 inverse( T ), inverse( X ) ) ), X ), multiply( 'double_divide'( Z, Y ), T
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , clause( 119, [ =( inverse( multiply( Y, Z ) ), 'double_divide'( Z, Y ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, clause( 1081, [ =( inverse( multiply( X, multiply( multiply( Y, Z ),
% 1.46/1.83 multiply( inverse( T ), inverse( X ) ) ) ) ), multiply( 'double_divide'(
% 1.46/1.83 Z, Y ), T ) ) ] )
% 1.46/1.83 , 0, 1, substitution( 0, [ :=( X, U ), :=( Y, X ), :=( Z, multiply(
% 1.46/1.83 multiply( Y, Z ), multiply( inverse( T ), inverse( X ) ) ) )] ),
% 1.46/1.83 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 192, [ =( 'double_divide'( multiply( multiply( Y, Z ), multiply(
% 1.46/1.83 inverse( T ), inverse( X ) ) ), X ), multiply( 'double_divide'( Z, Y ), T
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , clause( 1082, [ =( 'double_divide'( multiply( multiply( Y, Z ), multiply(
% 1.46/1.83 inverse( T ), inverse( X ) ) ), X ), multiply( 'double_divide'( Z, Y ), T
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1085, [ =( inverse( X ), multiply( 'double_divide'( X, Y ), Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 136, [ =( multiply( 'double_divide'( Z, X ), X ), inverse( Z ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1087, [ =( inverse( multiply( inverse( X ), inverse( Y ) ) ),
% 1.46/1.83 multiply( X, Y ) ) ] )
% 1.46/1.83 , clause( 17, [ =( 'double_divide'( multiply( inverse( X ), inverse( T ) )
% 1.46/1.83 , T ), X ) ] )
% 1.46/1.83 , 0, clause( 1085, [ =( inverse( X ), multiply( 'double_divide'( X, Y ), Y
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , 0, 8, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, T ), :=( T, Y )] )
% 1.46/1.83 , substitution( 1, [ :=( X, multiply( inverse( X ), inverse( Y ) ) ),
% 1.46/1.83 :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1088, [ =( 'double_divide'( inverse( Y ), inverse( X ) ), multiply(
% 1.46/1.83 X, Y ) ) ] )
% 1.46/1.83 , clause( 119, [ =( inverse( multiply( Y, Z ) ), 'double_divide'( Z, Y ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, clause( 1087, [ =( inverse( multiply( inverse( X ), inverse( Y ) ) ),
% 1.46/1.83 multiply( X, Y ) ) ] )
% 1.46/1.83 , 0, 1, substitution( 0, [ :=( X, Z ), :=( Y, inverse( X ) ), :=( Z,
% 1.46/1.83 inverse( Y ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 196, [ =( 'double_divide'( inverse( Y ), inverse( X ) ), multiply(
% 1.46/1.83 X, Y ) ) ] )
% 1.46/1.83 , clause( 1088, [ =( 'double_divide'( inverse( Y ), inverse( X ) ),
% 1.46/1.83 multiply( X, Y ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1091, [ =( inverse( Y ), multiply( 'double_divide'( X, Y ), X ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 133, [ =( multiply( 'double_divide'( X, Y ), X ), inverse( Y ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1093, [ =( inverse( 'double_divide'( X, Y ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 191, [ =( 'double_divide'( Y, 'double_divide'( X, Y ) ), X ) ] )
% 1.46/1.83 , 0, clause( 1091, [ =( inverse( Y ), multiply( 'double_divide'( X, Y ), X
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , 0, 6, substitution( 0, [ :=( X, X ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, Y ), :=( Y, 'double_divide'( X, Y ) )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1094, [ =( multiply( Y, X ), multiply( X, Y ) ) ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 1093, [ =( inverse( 'double_divide'( X, Y ) ), multiply( X, Y
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , 0, 1, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [
% 1.46/1.83 :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 207, [ =( multiply( Y, X ), multiply( X, Y ) ) ] )
% 1.46/1.83 , clause( 1094, [ =( multiply( Y, X ), multiply( X, Y ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1095, [ =( Y, 'double_divide'( X, 'double_divide'( Y, X ) ) ) ] )
% 1.46/1.83 , clause( 191, [ =( 'double_divide'( Y, 'double_divide'( X, Y ) ), X ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1098, [ =( X, inverse( 'double_divide'( X, multiply( Y, inverse( Y
% 1.46/1.83 ) ) ) ) ) ] )
% 1.46/1.83 , clause( 103, [ =( 'double_divide'( multiply( X, inverse( X ) ), Y ),
% 1.46/1.83 inverse( Y ) ) ] )
% 1.46/1.83 , 0, clause( 1095, [ =( Y, 'double_divide'( X, 'double_divide'( Y, X ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, 2, substitution( 0, [ :=( X, Y ), :=( Y, 'double_divide'( X, multiply(
% 1.46/1.83 Y, inverse( Y ) ) ) )] ), substitution( 1, [ :=( X, multiply( Y, inverse(
% 1.46/1.83 Y ) ) ), :=( Y, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1100, [ =( X, multiply( multiply( Y, inverse( Y ) ), X ) ) ] )
% 1.46/1.83 , clause( 1, [ =( inverse( 'double_divide'( Y, X ) ), multiply( X, Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, clause( 1098, [ =( X, inverse( 'double_divide'( X, multiply( Y,
% 1.46/1.83 inverse( Y ) ) ) ) ) ] )
% 1.46/1.83 , 0, 2, substitution( 0, [ :=( X, multiply( Y, inverse( Y ) ) ), :=( Y, X )] )
% 1.46/1.83 , substitution( 1, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1101, [ =( multiply( multiply( Y, inverse( Y ) ), X ), X ) ] )
% 1.46/1.83 , clause( 1100, [ =( X, multiply( multiply( Y, inverse( Y ) ), X ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 210, [ =( multiply( multiply( X, inverse( X ) ), Y ), Y ) ] )
% 1.46/1.83 , clause( 1101, [ =( multiply( multiply( Y, inverse( Y ) ), X ), X ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1102, [ =( Y, multiply( multiply( X, inverse( X ) ), Y ) ) ] )
% 1.46/1.83 , clause( 210, [ =( multiply( multiply( X, inverse( X ) ), Y ), Y ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1104, [ =( X, multiply( multiply( inverse( Y ), Y ), X ) ) ] )
% 1.46/1.83 , clause( 207, [ =( multiply( Y, X ), multiply( X, Y ) ) ] )
% 1.46/1.83 , 0, clause( 1102, [ =( Y, multiply( multiply( X, inverse( X ) ), Y ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, 3, substitution( 0, [ :=( X, inverse( Y ) ), :=( Y, Y )] ),
% 1.46/1.83 substitution( 1, [ :=( X, Y ), :=( Y, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1110, [ =( multiply( multiply( inverse( Y ), Y ), X ), X ) ] )
% 1.46/1.83 , clause( 1104, [ =( X, multiply( multiply( inverse( Y ), Y ), X ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 319, [ =( multiply( multiply( inverse( X ), X ), Y ), Y ) ] )
% 1.46/1.83 , clause( 1110, [ =( multiply( multiply( inverse( Y ), Y ), X ), X ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1112, [ =( Y, multiply( X, multiply( Y, inverse( X ) ) ) ) ] )
% 1.46/1.83 , clause( 147, [ =( multiply( Y, multiply( X, inverse( Y ) ) ), X ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1113, [ =( X, multiply( inverse( Y ), multiply( X, Y ) ) ) ] )
% 1.46/1.83 , clause( 113, [ =( inverse( inverse( Y ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 1112, [ =( Y, multiply( X, multiply( Y, inverse( X ) ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, 7, substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), substitution( 1, [
% 1.46/1.83 :=( X, inverse( Y ) ), :=( Y, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1114, [ =( multiply( inverse( Y ), multiply( X, Y ) ), X ) ] )
% 1.46/1.83 , clause( 1113, [ =( X, multiply( inverse( Y ), multiply( X, Y ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 345, [ =( multiply( inverse( X ), multiply( Y, X ) ), Y ) ] )
% 1.46/1.83 , clause( 1114, [ =( multiply( inverse( Y ), multiply( X, Y ) ), X ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1116, [ =( Y, multiply( inverse( X ), multiply( Y, X ) ) ) ] )
% 1.46/1.83 , clause( 345, [ =( multiply( inverse( X ), multiply( Y, X ) ), Y ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1122, [ =( X, multiply( inverse( multiply( Y, multiply( multiply( Z
% 1.46/1.83 , T ), multiply( inverse( X ), inverse( Y ) ) ) ) ), multiply( Z, T ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , clause( 21, [ =( multiply( X, multiply( Y, multiply( multiply( Z, T ),
% 1.46/1.83 multiply( inverse( X ), inverse( Y ) ) ) ) ), multiply( Z, T ) ) ] )
% 1.46/1.83 , 0, clause( 1116, [ =( Y, multiply( inverse( X ), multiply( Y, X ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , 0, 15, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 1.46/1.83 , substitution( 1, [ :=( X, multiply( Y, multiply( multiply( Z, T ),
% 1.46/1.83 multiply( inverse( X ), inverse( Y ) ) ) ) ), :=( Y, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1123, [ =( X, multiply( 'double_divide'( multiply( multiply( Z, T )
% 1.46/1.83 , multiply( inverse( X ), inverse( Y ) ) ), Y ), multiply( Z, T ) ) ) ]
% 1.46/1.83 )
% 1.46/1.83 , clause( 119, [ =( inverse( multiply( Y, Z ) ), 'double_divide'( Z, Y ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, clause( 1122, [ =( X, multiply( inverse( multiply( Y, multiply(
% 1.46/1.83 multiply( Z, T ), multiply( inverse( X ), inverse( Y ) ) ) ) ), multiply(
% 1.46/1.83 Z, T ) ) ) ] )
% 1.46/1.83 , 0, 3, substitution( 0, [ :=( X, U ), :=( Y, Y ), :=( Z, multiply(
% 1.46/1.83 multiply( Z, T ), multiply( inverse( X ), inverse( Y ) ) ) )] ),
% 1.46/1.83 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1124, [ =( X, multiply( multiply( 'double_divide'( Z, Y ), X ),
% 1.46/1.83 multiply( Y, Z ) ) ) ] )
% 1.46/1.83 , clause( 192, [ =( 'double_divide'( multiply( multiply( Y, Z ), multiply(
% 1.46/1.83 inverse( T ), inverse( X ) ) ), X ), multiply( 'double_divide'( Z, Y ), T
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , 0, clause( 1123, [ =( X, multiply( 'double_divide'( multiply( multiply( Z
% 1.46/1.83 , T ), multiply( inverse( X ), inverse( Y ) ) ), Y ), multiply( Z, T ) )
% 1.46/1.83 ) ] )
% 1.46/1.83 , 0, 3, substitution( 0, [ :=( X, T ), :=( Y, Y ), :=( Z, Z ), :=( T, X )] )
% 1.46/1.83 , substitution( 1, [ :=( X, X ), :=( Y, T ), :=( Z, Y ), :=( T, Z )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1125, [ =( multiply( multiply( 'double_divide'( Y, Z ), X ),
% 1.46/1.83 multiply( Z, Y ) ), X ) ] )
% 1.46/1.83 , clause( 1124, [ =( X, multiply( multiply( 'double_divide'( Z, Y ), X ),
% 1.46/1.83 multiply( Y, Z ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, Y )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 365, [ =( multiply( multiply( 'double_divide'( T, Z ), X ),
% 1.46/1.83 multiply( Z, T ) ), X ) ] )
% 1.46/1.83 , clause( 1125, [ =( multiply( multiply( 'double_divide'( Y, Z ), X ),
% 1.46/1.83 multiply( Z, Y ) ), X ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, Z )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1127, [ =( Z, 'double_divide'( multiply( 'double_divide'( X, Y ),
% 1.46/1.83 multiply( inverse( Z ), multiply( Y, multiply( inverse( T ), X ) ) ) ), T
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , clause( 4, [ =( 'double_divide'( multiply( 'double_divide'( Z, X ),
% 1.46/1.83 multiply( inverse( T ), multiply( X, multiply( inverse( Y ), Z ) ) ) ), Y
% 1.46/1.83 ), T ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, T ), :=( Z, X ), :=( T, Z )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1129, [ =( multiply( inverse( X ), Y ), 'double_divide'( multiply(
% 1.46/1.83 'double_divide'( Y, Z ), Z ), X ) ) ] )
% 1.46/1.83 , clause( 345, [ =( multiply( inverse( X ), multiply( Y, X ) ), Y ) ] )
% 1.46/1.83 , 0, clause( 1127, [ =( Z, 'double_divide'( multiply( 'double_divide'( X, Y
% 1.46/1.83 ), multiply( inverse( Z ), multiply( Y, multiply( inverse( T ), X ) ) )
% 1.46/1.83 ), T ) ) ] )
% 1.46/1.83 , 0, 10, substitution( 0, [ :=( X, multiply( inverse( X ), Y ) ), :=( Y, Z
% 1.46/1.83 )] ), substitution( 1, [ :=( X, Y ), :=( Y, Z ), :=( Z, multiply(
% 1.46/1.83 inverse( X ), Y ) ), :=( T, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1132, [ =( multiply( inverse( X ), Y ), 'double_divide'( inverse( Y
% 1.46/1.83 ), X ) ) ] )
% 1.46/1.83 , clause( 136, [ =( multiply( 'double_divide'( Z, X ), X ), inverse( Z ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 0, clause( 1129, [ =( multiply( inverse( X ), Y ), 'double_divide'(
% 1.46/1.83 multiply( 'double_divide'( Y, Z ), Z ), X ) ) ] )
% 1.46/1.83 , 0, 6, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, Y )] ),
% 1.46/1.83 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 367, [ =( multiply( inverse( X ), Y ), 'double_divide'( inverse( Y
% 1.46/1.83 ), X ) ) ] )
% 1.46/1.83 , clause( 1132, [ =( multiply( inverse( X ), Y ), 'double_divide'( inverse(
% 1.46/1.83 Y ), X ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 1.46/1.83 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1135, [ =( multiply( Z, T ), multiply( X, multiply( Y, multiply(
% 1.46/1.83 multiply( Z, T ), multiply( inverse( X ), inverse( Y ) ) ) ) ) ) ] )
% 1.46/1.83 , clause( 21, [ =( multiply( X, multiply( Y, multiply( multiply( Z, T ),
% 1.46/1.83 multiply( inverse( X ), inverse( Y ) ) ) ) ), multiply( Z, T ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1141, [ =( multiply( 'double_divide'( inverse( X ), inverse( Y ) )
% 1.46/1.83 , Z ), multiply( Y, multiply( X, Z ) ) ) ] )
% 1.46/1.83 , clause( 365, [ =( multiply( multiply( 'double_divide'( T, Z ), X ),
% 1.46/1.83 multiply( Z, T ) ), X ) ] )
% 1.46/1.83 , 0, clause( 1135, [ =( multiply( Z, T ), multiply( X, multiply( Y,
% 1.46/1.83 multiply( multiply( Z, T ), multiply( inverse( X ), inverse( Y ) ) ) ) )
% 1.46/1.83 ) ] )
% 1.46/1.83 , 0, 12, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, inverse( Y ) ),
% 1.46/1.83 :=( T, inverse( X ) )] ), substitution( 1, [ :=( X, Y ), :=( Y, X ), :=(
% 1.46/1.83 Z, 'double_divide'( inverse( X ), inverse( Y ) ) ), :=( T, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1143, [ =( multiply( multiply( Y, X ), Z ), multiply( Y, multiply(
% 1.46/1.83 X, Z ) ) ) ] )
% 1.46/1.83 , clause( 196, [ =( 'double_divide'( inverse( Y ), inverse( X ) ), multiply(
% 1.46/1.83 X, Y ) ) ] )
% 1.46/1.83 , 0, clause( 1141, [ =( multiply( 'double_divide'( inverse( X ), inverse( Y
% 1.46/1.83 ) ), Z ), multiply( Y, multiply( X, Z ) ) ) ] )
% 1.46/1.83 , 0, 2, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [
% 1.46/1.83 :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1144, [ =( multiply( X, multiply( Y, Z ) ), multiply( multiply( X,
% 1.46/1.83 Y ), Z ) ) ] )
% 1.46/1.83 , clause( 1143, [ =( multiply( multiply( Y, X ), Z ), multiply( Y, multiply(
% 1.46/1.83 X, Z ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 436, [ =( multiply( Y, multiply( X, Z ) ), multiply( multiply( Y, X
% 1.46/1.83 ), Z ) ) ] )
% 1.46/1.83 , clause( 1144, [ =( multiply( X, multiply( Y, Z ) ), multiply( multiply( X
% 1.46/1.83 , Y ), Z ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z )] ),
% 1.46/1.83 permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1145, [ =( multiply( multiply( X, Y ), Z ), multiply( X, multiply(
% 1.46/1.83 Y, Z ) ) ) ] )
% 1.46/1.83 , clause( 436, [ =( multiply( Y, multiply( X, Z ) ), multiply( multiply( Y
% 1.46/1.83 , X ), Z ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1148, [ ~( =( multiply( multiply( a3, b3 ), c3 ), multiply( a3,
% 1.46/1.83 multiply( b3, c3 ) ) ) ), ~( =( multiply( inverse( b1 ), b1 ), multiply(
% 1.46/1.83 inverse( a1 ), a1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ),
% 1.46/1.83 a2 ), a2 ) ), ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , clause( 2, [ ~( =( multiply( inverse( b1 ), b1 ), multiply( inverse( a1 )
% 1.46/1.83 , a1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ),
% 1.46/1.83 ~( =( multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 ),
% 1.46/1.83 c3 ) ) ), ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , 2, substitution( 0, [] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 resolution(
% 1.46/1.83 clause( 1164, [ ~( =( multiply( inverse( b1 ), b1 ), multiply( inverse( a1
% 1.46/1.83 ), a1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) )
% 1.46/1.83 , ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , clause( 1148, [ ~( =( multiply( multiply( a3, b3 ), c3 ), multiply( a3,
% 1.46/1.83 multiply( b3, c3 ) ) ) ), ~( =( multiply( inverse( b1 ), b1 ), multiply(
% 1.46/1.83 inverse( a1 ), a1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ),
% 1.46/1.83 a2 ), a2 ) ), ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , 0, clause( 1145, [ =( multiply( multiply( X, Y ), Z ), multiply( X,
% 1.46/1.83 multiply( Y, Z ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [] ), substitution( 1, [ :=( X, a3 ), :=( Y, b3 ),
% 1.46/1.83 :=( Z, c3 )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1166, [ ~( =( multiply( inverse( b1 ), b1 ), 'double_divide'(
% 1.46/1.83 inverse( a1 ), a1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ),
% 1.46/1.83 a2 ), a2 ) ), ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , clause( 367, [ =( multiply( inverse( X ), Y ), 'double_divide'( inverse(
% 1.46/1.83 Y ), X ) ) ] )
% 1.46/1.83 , 0, clause( 1164, [ ~( =( multiply( inverse( b1 ), b1 ), multiply( inverse(
% 1.46/1.83 a1 ), a1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 )
% 1.46/1.83 ), ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , 0, 6, substitution( 0, [ :=( X, a1 ), :=( Y, a1 )] ), substitution( 1, [] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1172, [ ~( =( a2, a2 ) ), ~( =( multiply( inverse( b1 ), b1 ),
% 1.46/1.83 'double_divide'( inverse( a1 ), a1 ) ) ), ~( =( multiply( a4, b4 ),
% 1.46/1.83 multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , clause( 319, [ =( multiply( multiply( inverse( X ), X ), Y ), Y ) ] )
% 1.46/1.83 , 0, clause( 1166, [ ~( =( multiply( inverse( b1 ), b1 ), 'double_divide'(
% 1.46/1.83 inverse( a1 ), a1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ),
% 1.46/1.83 a2 ), a2 ) ), ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , 1, 2, substitution( 0, [ :=( X, b2 ), :=( Y, a2 )] ), substitution( 1, [] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1173, [ ~( =( 'double_divide'( inverse( b1 ), b1 ), 'double_divide'(
% 1.46/1.83 inverse( a1 ), a1 ) ) ), ~( =( a2, a2 ) ), ~( =( multiply( a4, b4 ),
% 1.46/1.83 multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , clause( 367, [ =( multiply( inverse( X ), Y ), 'double_divide'( inverse(
% 1.46/1.83 Y ), X ) ) ] )
% 1.46/1.83 , 0, clause( 1172, [ ~( =( a2, a2 ) ), ~( =( multiply( inverse( b1 ), b1 )
% 1.46/1.83 , 'double_divide'( inverse( a1 ), a1 ) ) ), ~( =( multiply( a4, b4 ),
% 1.46/1.83 multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , 1, 2, substitution( 0, [ :=( X, b1 ), :=( Y, b1 )] ), substitution( 1, [] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqrefl(
% 1.46/1.83 clause( 1174, [ ~( =( 'double_divide'( inverse( b1 ), b1 ), 'double_divide'(
% 1.46/1.83 inverse( a1 ), a1 ) ) ), ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , clause( 1173, [ ~( =( 'double_divide'( inverse( b1 ), b1 ),
% 1.46/1.83 'double_divide'( inverse( a1 ), a1 ) ) ), ~( =( a2, a2 ) ), ~( =(
% 1.46/1.83 multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , 1, substitution( 0, [] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 449, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ), ~( =(
% 1.46/1.83 'double_divide'( inverse( b1 ), b1 ), 'double_divide'( inverse( a1 ), a1
% 1.46/1.83 ) ) ) ] )
% 1.46/1.83 , clause( 1174, [ ~( =( 'double_divide'( inverse( b1 ), b1 ),
% 1.46/1.83 'double_divide'( inverse( a1 ), a1 ) ) ), ~( =( multiply( a4, b4 ),
% 1.46/1.83 multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 1 ), ==>( 1, 0 )] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1178, [ ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ), ~( =(
% 1.46/1.83 'double_divide'( inverse( b1 ), b1 ), 'double_divide'( inverse( a1 ), a1
% 1.46/1.83 ) ) ) ] )
% 1.46/1.83 , clause( 449, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ), ~( =(
% 1.46/1.83 'double_divide'( inverse( b1 ), b1 ), 'double_divide'( inverse( a1 ), a1
% 1.46/1.83 ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1181, [ ~( =( 'double_divide'( inverse( X ), X ), 'double_divide'(
% 1.46/1.83 inverse( a1 ), a1 ) ) ), ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , clause( 79, [ =( 'double_divide'( inverse( X ), X ), 'double_divide'(
% 1.46/1.83 inverse( Y ), Y ) ) ] )
% 1.46/1.83 , 0, clause( 1178, [ ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ), ~(
% 1.46/1.83 =( 'double_divide'( inverse( b1 ), b1 ), 'double_divide'( inverse( a1 ),
% 1.46/1.83 a1 ) ) ) ] )
% 1.46/1.83 , 1, 2, substitution( 0, [ :=( X, b1 ), :=( Y, X )] ), substitution( 1, [] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1184, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ), ~( =(
% 1.46/1.83 'double_divide'( inverse( X ), X ), 'double_divide'( inverse( a1 ), a1 )
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , clause( 1181, [ ~( =( 'double_divide'( inverse( X ), X ), 'double_divide'(
% 1.46/1.83 inverse( a1 ), a1 ) ) ), ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) )
% 1.46/1.83 ] )
% 1.46/1.83 , 1, substitution( 0, [ :=( X, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 784, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ), ~( =(
% 1.46/1.83 'double_divide'( inverse( X ), X ), 'double_divide'( inverse( a1 ), a1 )
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , clause( 1184, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ), ~( =(
% 1.46/1.83 'double_divide'( inverse( X ), X ), 'double_divide'( inverse( a1 ), a1 )
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , substitution( 0, [ :=( X, X )] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1,
% 1.46/1.83 1 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1187, [ ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ), ~( =(
% 1.46/1.83 'double_divide'( inverse( X ), X ), 'double_divide'( inverse( a1 ), a1 )
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , clause( 784, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ), ~( =(
% 1.46/1.83 'double_divide'( inverse( X ), X ), 'double_divide'( inverse( a1 ), a1 )
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [ :=( X, X )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqrefl(
% 1.46/1.83 clause( 1190, [ ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ) ] )
% 1.46/1.83 , clause( 1187, [ ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ), ~( =(
% 1.46/1.83 'double_divide'( inverse( X ), X ), 'double_divide'( inverse( a1 ), a1 )
% 1.46/1.83 ) ) ] )
% 1.46/1.83 , 1, substitution( 0, [ :=( X, a1 )] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1191, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , clause( 1190, [ ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 785, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , clause( 1191, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqswap(
% 1.46/1.83 clause( 1192, [ ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ) ] )
% 1.46/1.83 , clause( 785, [ ~( =( multiply( a4, b4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 paramod(
% 1.46/1.83 clause( 1194, [ ~( =( multiply( b4, a4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , clause( 207, [ =( multiply( Y, X ), multiply( X, Y ) ) ] )
% 1.46/1.83 , 0, clause( 1192, [ ~( =( multiply( b4, a4 ), multiply( a4, b4 ) ) ) ] )
% 1.46/1.83 , 0, 5, substitution( 0, [ :=( X, b4 ), :=( Y, a4 )] ), substitution( 1, [] )
% 1.46/1.83 ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 eqrefl(
% 1.46/1.83 clause( 1197, [] )
% 1.46/1.83 , clause( 1194, [ ~( =( multiply( b4, a4 ), multiply( b4, a4 ) ) ) ] )
% 1.46/1.83 , 0, substitution( 0, [] )).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 subsumption(
% 1.46/1.83 clause( 786, [] )
% 1.46/1.83 , clause( 1197, [] )
% 1.46/1.83 , substitution( 0, [] ), permutation( 0, [] ) ).
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 end.
% 1.46/1.83
% 1.46/1.83 % ABCDEFGHIJKLMNOPQRSTUVWXYZ
% 1.46/1.83
% 1.46/1.83 Memory use:
% 1.46/1.83
% 1.46/1.83 space for terms: 11190
% 1.46/1.83 space for clauses: 93078
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 clauses generated: 119425
% 1.46/1.83 clauses kept: 787
% 1.46/1.83 clauses selected: 235
% 1.46/1.83 clauses deleted: 452
% 1.46/1.83 clauses inuse deleted: 0
% 1.46/1.83
% 1.46/1.83 subsentry: 39011
% 1.46/1.83 literals s-matched: 36662
% 1.46/1.83 literals matched: 36652
% 1.46/1.83 full subsumption: 0
% 1.46/1.83
% 1.46/1.83 checksum: 945404867
% 1.46/1.83
% 1.46/1.83
% 1.46/1.83 Bliksem ended
%------------------------------------------------------------------------------